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Clinical and Translational Science

Clinical and translational science track, research focus.

across the translational spectrum from discovery to implementation

average amount of time to Ph.D. degree

Guaranteed 5-year internal fellowship

includes full tuition, stipend and benefits

Moving new biomedical discoveries into clinical use as new treatments and cures takes considerable time and resources. A translational scientist is at the forefront of this work, teaming with an integrated group of experts focused on taking knowledge gained through research and translating it for use in health care settings. This bench-to-bedside effort is essential to bridging the gap between basic science and patient care.

The Clinical and Translational Science (CTS) Track within the Ph.D. Program at Mayo Clinic Graduate School of Biomedical Science is built upon Mayo Clinic's extensive interdisciplinary research and medical environment. It prepares you to lead the biomedical research teams of the future that will rapidly translate discoveries to new treatments and change the paradigms of how we conduct biomedical research.

As a graduate of this program, you’ll be able to conduct research leading to meaningful scientific contributions. In addition, you’ll be prepared to change and improve how biomedical research is conceptualized and implemented.

The Clinical and Translational Science Track allows students to personalize their studies in three areas of emphasis:

• Population-based translational science
• Patient-based translational science
• Laboratory-based translational science

A great strength of the Mayo Clinic CTS track is its focus on providing mentored research experiences for each student. The pre-eminent physicians, scientists, and educators who comprise the faculty at Mayo Clinic are available as mentors or co-mentors for students in the track.

All doctoral students in the CTS track have a common core curriculum.  Depending on your area of concentration (laboratory-, patient- or population-based translational science), you’ll select your advanced courses from either track courses or graduate school courses in the basic science disciplines.

• Core required courses  
• Track required courses  
• Introduction to research projects and methodologies used in the laboratories of clinical/translational investigators
• Completion of three research experiences or laboratory rotations, each lasting eight weeks
• Selection of laboratory for thesis research
• Advanced elective courses (areas of interest)
• Research gathering preliminary data for a thesis research project
• Preparation of a thesis proposal in the format of a grant application
• Selection of faculty for the oral qualifying exam committee, followed by defense of the research proposal in the oral exam (to be completed before the end of the fall quarter)
• Written Comprehensive Examination
• Oral Qualifying Examination (presentation of thesis proposal)
• Ongoing workshops/seminars/journal clubs
• Completion of thesis research and any remaining course requirements
• Selection of your Graduate School Thesis Advisory Committee that will evaluate the proposed direction, specific aims, and experimental strategies of your project, as well as meet with you at least twice a year to discuss your research progress
• Works-in-progress presentation of research project
• Final Oral Examination (thesis defense)

I chose the Clinical and Translational Science Track because of the flexibility of the program. Much of your coursework can be whichever topic helps you most for your research, and there are very few restrictions on the principal investigators you can work under. Also, because Mayo provides access to such unique patient populations, I’m able to use a lot of techniques that I wouldn’t be able to at a university or institution.

Kevin Kelly Ph.D. student, Clinical and Translational Science Track

One thing that attracted me to the CTS Track is how supported I felt as a student and the opportunities we have to learn and grow. We’re encouraged to explore career options other than the traditional academic route. I’m interested in translational science, and there have been numerous examples in which discoveries happened at the bench and ended up as clinical trials here at Mayo.

Alaa Koleilat, Ph.D. 2020 graduate of the Ph.D. Program, Clinical and Translational Science Track

Mayo Clinic draws students and patients from all over the world, which creates a unique educational environment. It also emphasize patient needs, which shapes the way that students learn and interact with other professionals. The small class size and primary focus on biomedical sciences contributes to the welcoming, energetic and collaborative environment. The leaders of all the programs I am associated with are clearly invested in my success.

Josiane Joseph M.D.-Ph.D. student, Clinical and Translational Science Track

• "BLOOM: Beta-lactam Optimization and Outcomes Management," Erin Barreto (Mentor: Andrew Rule, M.D.)
• "Differentiating types of dementia using extracellular vesicles," Maria Esperanza Bregendahl (Mentor: Pam J. McLean, Ph.D.)
• "Investigating Sulfatase 2 effects on the tumor microenvironment in hepatobiliary cancers," Tayla Brooks (Mentor: Lewis. R. Roberts, M.B., Ch.B., Ph.D.)
• "Defining racial differences in hedgehog-associated breast cancer risk biomarkers in normal breast biopsies," Jennifer Cabezas (Mentor: Derek Radisky, Ph.D.)
• "Cytokine Mediated Death and Survival in Multiple Myelom," Allison (Allie) Carr (Mentor: Adrian T. Ting, Ph.D.)
• "Peripheral multi-omics biomarkers of Alzheimer’s and related phenotypes," Xuan Chen (Mentor: Nilufer Taner, M.D., Ph.D.)
• "Pulmonary Hypertension Secondary to Left Heart Diseases," Ahmed Fayyaz (Mentor: Margaret M. Redfield, M.D.)
• "Using focused ultrasound (FUS) to enhance the delivery of intravenous umbilical cord-derived mesenchymal stem cells (UCMSC) in chronic spinal cord injured rats," Abdul Karim (AK) Ghaith (Mentors: Mohamad Bydon M.D., and Anthony J. Windebank M.D.)
• "The Role of the Endocannabinoid System in Systemic Stress Response in Zebrafish," Robin Heider (Mentor: Karl J. Clark, Ph.D.)
• "Utilizing long-read sequencing to unravel the clinical heterogeneity in motor neuron diseases and undiagnosed genetic disorders," Angita (AJ) Jain (Mentor: Marka M. Van Blitterswijk, M.D., Ph.D.)
• "Unraveling the Immunological Basis of Lobular Involution Stagnation in Breast Cancer Development," Jaida Lue (Mentor: Derek Radisky, Ph.D.)
• "Artificial intelligence derived voice biomarkers for the detection and management of cardiovascular disease," Jaskanwal Deep (Jas) Sara (Mentor: Amir Lerman, M.D.)
• "Characterization of Mitochondrial DNA variations, heteroplasmic levels, and deletion frequency in Pacbio’s continuous long reads," Ngan Tran (Mentor: Owen Ross, Ph.D.
• "Unrefined: Hepatocellular carcinoma and hepatitis burden and potential interventions in x population," Caitlin VanLith (Mentor: Lewis. R. Roberts, M.B., Ch.B., Ph.D.)
• "Data Independent Acquisition of Small Molecule Signatures to Characterize Inborn Errors of Metabolism," Rachel Wurth (Mentor: Devin Oglesbee, Ph.D.)
• "Developing Strategies to address health disparities for first generation regenerative medicine treatments," Mohamed (Mo) Addani (Mentor: Zubin Master, Ph.D.)
• "Utility of Methylated DNA Markers for the Diagnosis of Malignant Pancreatic Biliary Strictures," Matthew Cooley (Mentor: Lewis. R. Roberts, M.B., Ch.B., Ph.D.)
• "Electrical stimulation of hippocampus and amygdala modulates human ventral temporal cortex in distinct ways," Harvey Huang (Mentor: Dora Hermes, Miller Ph.D.)
• "Senolytics and antifibrotic treatment for chronic spinal cord injury," Vagisha Kulsreshtha (Mentors: James Kirkland M.D., Ph.D., and Isobel A. Scarisbrick Ph.D.)
• "HDAC1/OLIG2/STAT5 transcriptional complex facilitates GSC-mediated invasion and tumorigenesis," Auna’y Miller (Mentor: Nhan L. Tran, Ph.D.)
• "Transcriptional adaptation as a possible mechanism underlying amyotrophic lateral sclerosis," Adriana (Adri) Morales Gomez (Mentor: Nathan Staff M.D., Ph.D.)
• "Single Cell Landscape of Infiltrating Immune Cells in Cholangiocarcinoma," Hannah Stumpf (Mentor: Sumera I. Ilyas, M.B.B.S.)
• "Developing a Value-Based Hybrid Care Model for Stroke Patients," Stephanie Zawada (Mentor: Bart M. Demaerschalk, M.D.)
• “Improving Facial Paralysis Surgical Outcomes: Targeting Facial Nerve Regeneration,” Marissa Suchyta (Mentor: Samir Mardini, M.D.)
• “Regenerative Capabilities of Extracellular Vesicles in Myocarditis,” Danielle Beetler (Mentor: DeLisa Fairweather, Ph.D.)
• “Machine Learning-Aided Biomarker Discovery and Precision Genomics for Gallbladder Cancer,” Linsey Jackson (Mentor: Lewis R. Roberts, M.B., Ch.B., Ph.D.)
• “Pathway Discovery in Neurodegenerative Diseases by Integration of Multi-omics Data,” Yuhao (Harry) Min (Mentor: Nilufer Taner, M.D., Ph.D.)
• “Investigating Uterine Fibroids in Women of Color: A Translational Approach,” Minerva Orellana (Mentors: Felicity T. Enders, Ph.D. and Elizabeth (Ebbie) A. Stewart, M.D.)
• “Natural Language Processing Aided Discovery of Adverse Symptoms during Fertility Procedures,” Karen DSouza (Mentor: Megan A. Allyse, Ph.D.)
• “Understanding and Promoting Student Wellbeing Through Social-Emotional Behavioral Programming,” Catherine Knier (Mentor: Dr. Anthony J. Windebank, M.D, and Christopher K. Pierret, Ph.D.)
• “Reducing the Burden of Hepatocellular Carcinoma Among Migrant Populations: Improving Prevention and Outcomes Through Disease Modeling,” Kenneth Valles (Mentor: Lewis R. Roberts, M.B., Ch.B., Ph.D.)
• “Living Systematic Reviews and Guideline Updates in Areas with Rapidly Evolving Evidence,” Irbaz Bin Riaz (Mentor: M. Hassan Murad, M.D.)
• “Sex Differences in Mitochondria During Acute cvb3 Myocarditis,” Damian Di Florio (Mentor: DeLisa Fairweather, Ph.D.)
• “The Role of Convection-Enhanced Delivery for Diffuse Intrinsic Pontine Glioma,” Erica Power (Mentor: David J. Daniels, M.D., Ph.D)
• “Subcutaneous Combination Biodevice for the Treatment of Type 1 Diabetes,” Ethan Law (Mentor: Quinn P. Peterson, Ph.D.)
• “Technologies to Enable Closed-loop Neurochemical Control in Deep Brain Stimulation,” Aaron Rusheen (Mentor: Kendall H. Lee, M.D., Ph.D.)
• “Functional Validation in Unsolved Rare Disease Patients as a Method of Providing and Clarifying Diagnosis,” Brad Bowles (Mentor: Karl J. Clark, Ph.D. and Eric W. Klee, Ph.D.)
• “The Role of Glypican-3 Isoforms in the Development of Chimeric Antigen Receptor T Cells for Liver Cancer Therapy,” Aarti Koluri (Mentor: Lewis R. Roberts, M.B., Ch.B., Ph.D.)
• “Clinical Implementation of Tobacco Cessation Treatment among Cancer Patients,” Josh Ohde, Ph.D. (Mentor: David O. Warner, M.D.)
• “Metabolic Abnormalities Associated with Disease Alter Progenitor Cell Function and Precede Tissue Deterioration,” Josiane Joseph (Mentor: Jason D. Doles, Ph.D.)
• “Breast Cancer Mode of Detection Varies by Breast Density and Stage at Diagnosis in Population Based Cohort,” Susanna Basappa (Mentor: Lila J. Rutten, Ph.D.)

Your future

Many graduates of the Clinical and Translational Science Track choose to pursue postdoctoral training regardless of whether they intend to pursue careers in academia or industry. Other students choose to enter advanced training programs, such as genetics fellowships.

Meet the directors

Clinical and translational science is a rapidly developing area of science. Advances in technology and the way we approach and treat diseases or other conditions have set the stage for improved human health.

Our program combines the clinical and scientific resources of Mayo Clinic, where you’ll graduate with an understanding of how research is translated to health care, and ready to carry out research that accelerates medical discoveries into better health.

Felicity Enders, Ph.D.

Clinical and Translational Science Track Director Professor of Biostatistics Phone: 507-538-4970 Email:  [email protected] View research interests

Marina Walther-Antonio, Ph.D.

Clinical and Translational Science Track Associate Director Assistant Professor of Surgery Phone: 507-293-7070 Email:  [email protected]   View research interests

Anthony Windebank, M.D.

Clinical and Translational Science Track TL1 Principal Investigator Professor of Neurology Phone: 507-284-4716 Email: [email protected]   View research interests

Browse a list of Clinical and Translational Science Track faculty members

Ph.D. Program

The training for a Ph.D. in Biology is focused on helping students achieve their goals of being a successful research scientist and teacher, at the highest level. Students work closely with an established advisor and meet regularly with a committee of faculty members to facilitate their progress. The Biology Ph.D. program is part of the larger Biosciences community at Stanford, which includes doctorate programs in the basic science departments at Stanford Medical School. 

There are two tracks within the Biology Ph.D. program:

• Cell, Molecular and Organismal Biology
• Ecology and Evolution

(Previously a part of the Department of Biology Hopkins Marine Station is now a part of the Oceans Department within  Stanford Doerr School of Sustainability )

All  tracks are focused on excellence in research and teaching in their respective areas; where there are differences between the tracks, they are indicated in the links below. 

Requirements & Forms

Dissertation defense, cellular and molecular biology training program, stanford biology ph.d. preview program, career development resources.

PhD in Biological Sciences in Public Health

Prepare for a high-impact academic or research career at the forefront of the biological sciences in public health..

As a student in the PhD in biological sciences in public health program, you will gain expertise in the prevention and treatment of diseases that affect thousands—even millions—of people. Working with leading public health scientists, you will learn both mechanistic and quantitative approaches to biomedical research, while specializing in one of four areas of investigation:

• The metabolic basis of health and disease
• Immunology and infectious diseases
• Gene-environment interactions
• Inflammation and stress responses

Each area of investigation emphasizes biochemical, cell biological, and genetic approaches to understanding disease. In your research, whether basic or translational, you will apply cutting-edge tools and techniques to advance the understanding, treatment, and prevention of human diseases that significantly impact global populations today. Current research within our laboratories includes these and other diseases and risk factors:

• Atherosclerosis
• Chagas’ disease
• Environmental exposure to toxins
• Inflammatory diseases
• Kidney disease
• Metabolic syndrome
• Tuberculosis

As a graduate of the program, you will be prepared for a career as a faculty member in a college, university, medical school, research institute, or school of public health. You may also choose to pursue a career in research at a government agency, or in the private sector at a consulting, biotech, or pharmaceutical firm.

The program provides broad interdisciplinary knowledge of both mechanistic and quantitative approaches to biomedical research and prepares graduate students for research careers with courses in the following areas:

• Biochemistry, Genetics
• Biostatistics
• Cell biology
• Epidemiology
• Immunology/Infectious diseases
• Molecular biology
• Toxicology/Cancer cell biology

All students admitted to the PhD in biological sciences in public health program, including international students, are guaranteed full funding, which includes a stipend, tuition, and health insurance for five years, provided they maintain satisfactory progress.

WHO SHOULD APPLY?

To qualify for admission, applicants must demonstrate strong enthusiasm and ability for the vigorous pursuit of scientific knowledge. Minimum requirements include a bachelor’s degree and undergraduate preparation in the sciences.

APPLICATION PROCESS

Like all PhD (doctor of philosophy) programs at the School, the PhD in biological sciences in public health is offered under the aegis of the Harvard Kenneth C. Griffin Graduate School of Arts and Sciences (Harvard Griffin GSAS). Applications are processed through the Harvard Griffin GSAS online application system . The program is located within the Division of Biological Sciences at the Harvard T.H. Chan School of Public Health.

OUR COMMUNITY: COMMITTED, ACCOMPLISHED, COLLABORATIVE

As a PhD candidate in the biological sciences in public health program, you will be part of a diverse and accomplished group of students with a broad range of research and other interests. The opportunity to learn from each other and share ideas outside of the classroom will be one of the most rewarding and productive parts of the program. The School fosters those relationships by sponsoring an “informal curriculum” of seminars, journal clubs, retreats, and other opportunities that will broaden your knowledge, hone your presentation skills, and teach you how to critically evaluate scientific literature while providing a supportive, collaborative community within which to pursue your degree. Our location in the heart of Boston’s Longwood Medical Area—home to Harvard Medical School, the Dana-Farber Cancer Institute, and many world-class hospitals—makes collaboration with eminent laboratory and clinical researchers a natural part of the educational experience. And when you graduate, you will benefit from Harvard’s unparalleled global network of alumni leaders.

LEARN MORE Visit our website at www.hsph.harvard.edu/biological-sciences for more information or contact [email protected]

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Find the Best Science Schools

Students interested in furthering their knowledge of the sciences can explore programs ranging from chemistry to physics.

Search Science Schools

Science Specialty Rankings

The U.S. News graduate science rankings are based solely on ratings of each program's quality by academics.

Biological Sciences

• Biochemistry / Biophysics / Structural Biology
• Cell Biology
• Ecology / Evolutionary Biology
• Genetics / Genomics / Bioinformatics
• Immunology / Infectious Disease
• Microbiology
• Molecular Biology
• Neuroscience / Neurobiology
• Biochemistry
• Theoretical

Computer Science

• Artificial Intelligence
• Programming Language

Earth Sciences

• Environmental Sciences
• Geochemistry
• Geophysics and Seismology
• Paleontology

Mathematics

• Algebra / Number Theory / Algebraic Geometry
• Applied Math
• Discrete Mathematics and Combinatorics
• Atomic / Molecular / Optical
• Condensed Matter
• Cosmology / Relativity / Gravity
• Elementary Particles / Field / String Theory
• Physics of Living Systems

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Sign up for a free U.S. News account to access our My Schools tool where you can save schools, track application statuses and get organized.

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Department of Cognitive Science

Phd program.

• PhD Requirements
• Computational Cognitive Science Track
• PhD Sample Program
• PhD Funding
• PhD Admissions
• Alumni Testimonials
• PhD Alumni Placement
• MA Requirements
• MA Sample Program
• MA Admissions
• Graduate Courses
• Professional Development

The Department of Cognitive Science PhD program’s primary goal is to train a new generation of cognitive scientists who can meld multiple existing disciplines into a new, genuinely integrated science of the mind/brain.

A secondary goal is to train graduates who are competitive for positions in traditional disciplinary departments at research universities. Because many of the most exciting research developments recognized within the related traditional disciplines arise through interdisciplinary research, the training in cognitive science offered by our department can promote a graduate’s attractiveness as a candidate for positions in a variety of departments.

For example, a student who is studying language processing in normal and brain-damaged subjects, and is trained in the methods of both cognitive neuropsychology and neuroimaging, with a solid foundation in theoretical linguistics and additional coursework in psychology or neuroscience, is potentially employable in a number of departments. A student with in-depth training in theoretical phonology, a solid background in computational and psychological approaches to phonological research, and ancillary training in other branches of linguistics is well positioned to conduct state-of-the-art research and teaching valuable for both a linguistics department and a cognitive science program.

The training we offer in cognitive science is highly interdisciplinary, strongly theoretically oriented, and integrated to an extent only possible within a department of cognitive science.

Our Training

The interdisciplinary training provided to all PhD students includes:

• Cognitive psychology and neuropsychology
• Computational approaches to cognition
• Generative linguistics
• Philosophy of mind
• Cognitive neuroscience
• Teaching experience in a range of areas within cognitive science
• Coursework introducing the full range of formal methods used throughout cognitive science
• Computational analysis
• Computer modeling
• Empirical psychology
• Empirical neuroscience
• Linguistic analysis
• Brain imaging
• Philosophical analysis
• In-depth interdisciplinary training in an area of expertise, with ancillary preparation for a faculty position in a traditional discipline.

Research Experience

In addition, PhD students are provided extensive experience integrating the theory and methods of diverse cognitive sub-disciplines through specially designed integrative courses and regular seminars involving the entire department.

Our program can offer such a breadth and depth of training because, unlike departments in the allied disciplines, in a department of cognitive science, 100% of graduate training can be focused on cognition. Integrated training across the spectrum of cognitive methods allows students to emerge from graduate school as professional cognitive scientists.

Please see the navigation menu for additional information on the PhD program in cognitive science, such as PhD requirements .

Graduate Student Resources

• Cognitive Science Graduate Handbook
• Graduate & Postdoctoral Affairs Website includes policies, credit hours, services, professional development, student life, graduation guide
• Alumni Placements

Degree Checklists

• PhD in CogSci Checklist
• PhD in CogSci CCS Checklist

Jeongho Park, PhD 2018

The training I received as a graduate student in the Cognitive Science Department at JHU gave me a solid foundation for my development as a cognitive neuroscientist. Through research projects […]

Doctor of Philosophy in Education

Additional Information

• Download the Doctoral Viewbook
• Admissions & Aid

The Harvard Ph.D. in Education trains cutting-edge researchers who work across disciplines to generate knowledge and translate discoveries into transformative policy and practice.

Offered jointly by the Harvard Graduate School of Education and the Harvard Kenneth C. Griffin Graduate School of Arts and Sciences, the Ph.D. in Education provides you with full access to the extraordinary resources of Harvard University and prepares you to assume meaningful roles as university faculty, researchers, senior-level education leaders, and policymakers.

As a Ph.D. candidate, you will collaborate with scholars across all Harvard graduate schools on original interdisciplinary research. In the process, you will help forge new fields of inquiry that will impact the way we teach and learn. The program’s required coursework will develop your knowledge of education and your expertise in a range of quantitative and qualitative methods needed to conduct high-quality research. Guided by the goal of making a transformative impact on education research, policy, and practice, you will focus on independent research in various domains, including human development, learning and teaching, policy analysis and evaluation, institutions and society, and instructional practice.   

Curriculum Information

The Ph.D. in Education requires five years of full-time study to complete. You will choose your individual coursework and design your original research in close consultation with your HGSE faculty adviser and dissertation committee. The requirements listed below include the three Ph.D. concentrations: Culture, Institutions, and Society; Education Policy and Program Evaluation; and Human Development, Learning and Teaching . 

We invite you to review an example course list, which is provided in two formats — one as the full list by course number and one by broad course category . These lists are subject to modification. 

Ph.D. Concentrations and Examples

Summary of Ph.D. Program

Doctoral Colloquia  In year one and two you are required to attend. The colloquia convenes weekly and features presentations of work-in-progress and completed work by Harvard faculty, faculty and researchers from outside Harvard, and Harvard doctoral students. Ph.D. students present once in the colloquia over the course of their career.

Research Apprenticeship The Research Apprenticeship is designed to provide ongoing training and mentoring to develop your research skills throughout the entire program.

Teaching Fellowships The Teaching Fellowship is an opportunity to enhance students' teaching skills, promote learning consolidation, and provide opportunities to collaborate with faculty on pedagogical development.

Comprehensive Exams  The Written Exam (year 2, spring) tests you on both general and concentration-specific knowledge. The Oral Exam (year 3, fall/winter) tests your command of your chosen field of study and your ability to design, develop, and implement an original research project.

Dissertation  Based on your original research, the dissertation process consists of three parts: the Dissertation Proposal, the writing, and an oral defense before the members of your dissertation committee.

Culture, Institutions, and Society (CIS) Concentration

In CIS, you will examine the broader cultural, institutional, organizational, and social contexts relevant to education across the lifespan. What is the value and purpose of education? How do cultural, institutional, and social factors shape educational processes and outcomes? How effective are social movements and community action in education reform? How do we measure stratification and institutional inequality? In CIS, your work will be informed by theories and methods from sociology, history, political science, organizational behavior and management, philosophy, and anthropology. You can examine contexts as diverse as classrooms, families, neighborhoods, schools, colleges and universities, religious institutions, nonprofits, government agencies, and more.

Education Policy and Program Evaluation (EPPE) Concentration

In EPPE, you will research the design, implementation, and evaluation of education policy affecting early childhood, K–12, and postsecondary education in the U.S. and internationally. You will evaluate and assess individual programs and policies related to critical issues like access to education, teacher effectiveness, school finance, testing and accountability systems, school choice, financial aid, college enrollment and persistence, and more. Your work will be informed by theories and methods from economics, political science, public policy, and sociology, history, philosophy, and statistics. This concentration shares some themes with CIS, but your work with EPPE will focus on public policy and large-scale reforms.

Human Development, Learning and Teaching (HDLT) Concentration

In HDLT, you will work to advance the role of scientific research in education policy, reform, and practice. New discoveries in the science of learning and development — the integration of biological, cognitive, and social processes; the relationships between technology and learning; or the factors that influence individual variations in learning — are transforming the practice of teaching and learning in both formal and informal settings. Whether studying behavioral, cognitive, or social-emotional development in children or the design of learning technologies to maximize understanding, you will gain a strong background in human development, the science of learning, and sociocultural factors that explain variation in learning and developmental pathways. Your research will be informed by theories and methods from psychology, cognitive science, sociology and linguistics, philosophy, the biological sciences and mathematics, and organizational behavior.

Program Faculty

The most remarkable thing about the Ph.D. in Education is open access to faculty from all Harvard graduate and professional schools, including the Harvard Graduate School of Education, the Faculty of Arts and Sciences, the Harvard Kennedy School, the Harvard Law School, Harvard Medical School, and the Harvard School of Public Health. Learn about the full Ph.D. Faculty.

Jarvis R. Givens

Jarvis Givens studies the history of American education, African American history, and the relationship between race and power in schools.

Paul L. Harris

Paul Harris is interested in the early development of cognition, emotion, and imagination in children.

Meira Levinson

Meira Levinson is a normative political philosopher who works at the intersection of civic education, youth empowerment, racial justice, and educational ethics. 

Luke W. Miratrix

Luke Miratrix is a statistician who explores how to best use modern statistical methods in applied social science contexts.

Eric Taylor

Eric Taylor studies the economics of education, with a particular interest in employer-employee interactions between schools and teachers — hiring and firing decisions, job design, training, and performance evaluation.

Paola Uccelli

Paola Ucelli studies socio-cultural and individual differences in the language development of multilingual and monolingual students.

View Ph.D. Faculty

Dissertations.

The following is a complete listing of successful Ph.D. in Education dissertations to-date. Dissertations from November 2014 onward are publicly available in the Digital Access to Scholarship at Harvard (DASH) , the online repository for Harvard scholarship.

• 2022 Graduate Dissertations (265 KB pdf)
• 2021 Graduate Dissertations (177 KB pdf)
• 2020 Graduate Dissertations (121 KB pdf)
• 2019 Graduate Dissertations (68.3 KB pdf)

Student Directory

An opt-in listing of current Ph.D. students with information about their interests, research, personal web pages, and contact information:

Doctor of Philosophy in Education Student Directory

Introduce Yourself

Tell us about yourself so that we can tailor our communication to best fit your interests and provide you with relevant information about our programs, events, and other opportunities to connect with us.

Program Highlights

Explore examples of the Doctor of Philosophy in Education experience and the impact its community is making on the field:

Reshaping Teacher Licensure: Lessons from the Pandemic

Olivia Chi, Ed.M.'17, Ph.D.'20, discusses the ongoing efforts to ensure the quality and stability of the teaching workforce

Lost in Translation

New comparative study from Ph.D. candidate Maya Alkateb-Chami finds strong correlation between low literacy outcomes for children and schools teaching in different language from home

PhD Program

Professor Wender discusses chemistry with his graduate students.

Doctoral study in chemistry at Stanford University prepares students for research and teaching careers with diverse emphases in basic, life, medical, physical, energy, materials, and environmental sciences.

The Department of Chemistry offers opportunities for graduate study spanning contemporary subfields, including theoretical, organic, inorganic, physical, biophysical and biomedical chemistry and more. Much of the research defies easy classification along traditional divisions; cross-disciplinary collaborations with Stanford's many vibrant research departments and institutes is among factors distinguishing this world-class graduate program.

The Department of Chemistry is committed to providing academic advising in support of graduate student scholarly and professional development.  This advising relationship entails collaborative and sustained engagement with mutual respect by both the adviser and advisee.

• The adviser is expected to meet at least monthly with the graduate student to discuss on-going research.
• There should be a yearly independent development plan (IDP) meeting between the graduate student and adviser. Topics include research progress, expectations for completion of PhD, areas for both the student and adviser to improve in their joint research effort.
• A research adviser should provide timely feedback on manuscripts and thesis chapters.
• Graduate students are active contributors to the advising relationship, proactively seeking academic and professional guidance and taking responsibility for informing themselves of policies and degree requirements for their graduate program.
• If there is a significant issue concerning the graduate student’s progress in research, the adviser must communicate this to the student and to the Graduate Studies Committee in writing.  This feedback should include the issues, what needs to be done to overcome these issues and by when.

Academic advising by Stanford faculty is a critical component of all graduate students' education and additional resources can be found in the  Policies and Best Practices for Advising Relationships at Stanford  and the  Guidelines for Faculty-Student Advising at Stanford .

Learn more about the program through the links below, and by exploring the research interests of the  Chemistry Faculty  and  Courtesy Faculty .

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PhD in Epidemiology and Clinical Research

The PhD program in epidemiology and clinical research provides methodologic and interdisciplinary training to equip students to carry out cutting-edge epidemiologic research. The program trains students in the tools of modern epidemiology, with heavy emphasis on statistics, computer science, genetics, genomics, and bioinformatics. We welcome applicants with diverse backgrounds.

Pre-Application Sessions and Recordings

We are EPH: Meet Sam Jaros

Sam Jaros is a 4th year PhD candidate in the Department of Epidemiology and Population Health. His current research and my thesis projects are all about finding actionable patterns in opioid addiction to better spend limited public health resources on improving care. He first found a passion for improving care for opioid addiction while working in Appalachia in previous mining towns. 

Read the Q&A with S am

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The Department of Epidemiology and Population Health is committed to fostering a diverse community in which all individuals are welcomed, respected, and supported to achieve their full potential.  

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About the PhD in Clinical Investigation Program

The program is targeted toward internal physician postdoctoral fellows in clinical departments of the School of Medicine. It involves one year of full-time academic classroom work, followed by at least two years of mentored training in clinical research. The combination of a year of instruction and a year of clinicals allows students the scientific grounding for subsequent original research. This research effort is jointly mentored by faculty from the program and a mentor from the student’s SOM department. After fulfilling all requirements, a Doctor of Philosophy degree in Clinical Investigation is awarded by the Johns Hopkins Bloomberg School of Public Health.

Curriculum for the PhD in Clinical Investigation

Browse an overview of this program's requirements in the JHU  Academic Catalogue  and explore all course offerings in the Bloomberg School  Course Directory .

Prerequisites for the PhD Degree

• Satisfactory completion of 90 credit hours of course work, including one year of full-time in-residency course work
• Five additional courses to be taken in the second or third years
• Continuous registration for the Research Forum and registration for Thesis Research each term
• Completion of a Comprehensive Exam at the end of the didactic year
• Satisfaction of all university requirements for the PhD, including completion of a Preliminary Oral Examination, Thesis Preparation, and Thesis Defense

Admissions Requirements

For general admissions requirements, please visit the How to Apply page. For our PhD specific application requirements, please see our How to Apply page.

This specific program also requires:

Prior Graduate Degree

Advanced medical degree: e.g., MD, MBBS, PhD

Prior Work Experience

Work with human subjects in clinical investigation

Standardized Test Scores

Standardized test scores  are required  for this program. This program accepts the following standardized test scores: USMLE and GRE or MCAT.  Applications will be reviewed holistically based on all application components.

GTPCI is one of 60 national recipients of an NIH-sponsored CTSA KL2 Award to support institutional career development programs for physicians and dentists, encouraging them to become independent, patient-oriented clinical investigators. This Multi- disciplinary Clinical Research Career Development Program funds clinical research training for a broad group of physicians, dentists, and other scientists who have a doctorate in a health-related field, including pharmacy, nursing, epidemiology, and behavioral sciences. The Johns Hopkins KL2 program will provide career development support for junior faculty physicians or dentists from within Johns Hopkins Medical Institutions.

Information regarding the cost of tuition and fees can be found on the Bloomberg School's Tuition and Fees page.

Need-Based Relocation Grants Students who  are admitted to PhD programs at JHU  starting in Fall 2023 or beyond can apply to receive a $1500 need-based grant to offset the costs of relocating to be able to attend JHU.   These grants provide funding to a portion of incoming students who, without this money, may otherwise not be able to afford to relocate to JHU for their PhD program. This is not a merit-based grant. Applications will be evaluated solely based on financial need.  View more information about the need-based relocation grants for PhD students .

Questions about the program? We're happy to help.

Director Khalil Ghanem, MD, PhD

Academic Program Manager Cristina A. DeNardo, MEd 410-502-9734 [email protected]

PhD in Biomedical Science

New section.

Biomedical scientists bridge the gap between the basic sciences and medicine. The PhD degree is the gateway to a career in biomedical research.

Information about what one can do with a PhD in Biomedical Science.

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Upcoming short presentations will describe features of PhD training, alumni careers, and detailed logistics of the application process.

Learn about PhD Programs from program leaders.

Graduate schools in the biomedical sciences will generally provide a comprehensive funding package to their students.

PhD Programs by School

List of Postdoctoral Programs by School

Postbaccalaureate programs begin after an undergraduate degree and are designed to support the transition to professional school.

Biomedical PhD Programs

The following programs are administered in the School of Medicine by the  Office of Biomedical Graduate Education  (OBGE).

Each PhD program has its own course work and preliminary exam requirements, but all programs follow a general academic pattern. The first year is generally devoted to course work and laboratory rotations. At the beginning of the second year, students enter their thesis labs, finish course work and assemble dissertation committees. At the end of the second year, students complete their preliminary exam, which is generally based on their proposed dissertation project. After passing the preliminary exam, the student is fully devoted to research. Some programs have a teaching requirement but all students can serve as teaching assistants with the approval of their dissertation mentor.

Learn more about specific departmental requirements, offerings, leadership, and faculty on each program’s webpage.

• Biochemistry
• Biostatistics
• Cell & Molecular Biology *
• Cell Biology  (non-admitting)
• Cognitive Neuroscience † *
• Computational Biology & Bioinformatics *
• Developmental & Stem Cell Biology † *
• Integrated Toxicology & Environmental Health Program † *
• Medical Physics
• Medical Scientist Training Program - MD/PhD
• Molecular Cancer Biology
• Molecular Genetics & Microbiology
• Neurobiology
• Pharmacology
• Population Health Sciences
• University Program in Genetics & Genomics *

† Admitting program

Admitting interdisciplinary programs offer students an opportunity to develop foundational skills with interdisciplinary faculty from the admitting program in the first two years of study. Students then affiliate into a degree-granting program to join a lab, continue study, and earn the Ph.D. degree.

*Interdisciplinary program

Interdisciplinary programs offer training from faculty from across Duke departments who bring together valuable field knowledge from a variety of academic perspectives. Some interdisciplinary programs are admitting programs and constitute only the first two years of training; others are degree-granting and see students through the entire PhD degree. Admitting programs are denoted with a †.

NYU Center for Data Science

Harnessing Data’s Potential for the World

PhD in Data Science

An NRT-sponsored program in Data Science

• Areas & Faculty
• Admission Requirements
• Medical School Track
• NRT FUTURE Program

Advances in computational speed and data availability, and the development of novel data analysis methods, have birthed a new field: data science. This new field requires a new type of researcher and actor: the rigorously trained, cross-disciplinary, and ethically responsible data scientist. Launched in Fall 2017, the pioneering CDS PhD Data Science program seeks to produce such researchers who are fluent in the emerging field of data science, and to develop a native environment for their education and training. The CDS PhD Data Science program has rapidly received widespread recognition and is considered among the top and most selective data science doctoral programs in the world. It has recently been recognized by the NSF through an NRT training grant.

The CDS PhD program model rigorously trains data scientists of the future who (1) develop methodology and harness statistical tools to find answers to questions that transcend the boundaries of traditional academic disciplines; (2) clearly communicate to extract crisp questions from big, heterogeneous, uncertain data; (3) effectively translate fundamental research insights into data science practice in the sciences, medicine, industry, and government; and (4) are aware of the ethical implications of their work.

Our programmatic mission is to nurture this new generation of data scientists, by designing and building a data science environment where methodological innovations are developed and translated successfully to domain applications, both scientific and social. Our vision is that combining fundamental research on the principles of data science with translational projects involving domain experts creates a virtuous cycle: Advances in data science methodology transform the process of discovery in the sciences, and enable effective data-driven governance in the public sector. At the same time, the demands of real-world translational projects will catalyze the creation of new data science methodologies. An essential ingredient of such methodologies is that they embed ethics and responsibility by design.

These objectives will be achieved by a combination of an innovative core curriculum, a novel data assistantship mechanism that provides training of skills transfer through rotations and internships, and communication and entrepreneurship modules. Students will be exposed to a wider range of fields than in more standard PhD programs while working with our interdisciplinary faculty. In particular, we are proud to offer a medical track for students eager to explore data science as applied to healthcare or to develop novel theoretical models stemming from medical questions.

In short, the CDS PhD Data Science program prepares students to become leaders in data science research and prepares them for outstanding careers in academia or industry. Successful candidates are guaranteed financial support in the form of tuition and a competitive stipend in the fall and spring semesters for up to five years.* We invite you to learn more through our webpage or by contacting  [email protected] .

*The Ph.D. program also offers students the opportunity to pursue their study and research with Data Science faculty based at NYU Shanghai. With this opportunity, students generally complete their coursework in New York City before moving full-time to Shanghai for their research. For more information, please visit the NYU Shanghai Ph.D. page .

Google PhD fellowship program

Google PhD Fellowships directly support graduate students as they pursue their PhD, as well as connect them to a Google Research Mentor.

Nurturing and maintaining strong relations with the academic community is a top priority at Google. The Google PhD Fellowship Program was created to recognize outstanding graduate students doing exceptional and innovative research in areas relevant to computer science and related fields. Fellowships support promising PhD candidates of all backgrounds who seek to influence the future of technology. Google’s mission is to foster inclusive research communities and encourage people of diverse backgrounds to apply. We currently offer fellowships in Africa, Australia, Canada, East Asia, Europe, India, Latin America, New Zealand, Southeast Asia and the United States.

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Program details

Application status, how to apply, research areas of focus, review criteria, award recipients.

Applications are currently closed.

Decisions for the 2024 application cycle will be announced via email in July 2024. Please check back in 2025 for details on future application cycles.

• Launch March 27, 2024
• Deadline May 8, 2024
• Winner selected by July 31, 2024

The details of each Fellowship vary by region. Please see our FAQ for eligibility requirements and application instructions.

PhD students must be nominated by their university. Applications should be submitted by an official representative of the university during the application window. Please see the FAQ for more information.

Australia and New Zealand

Canada and the United States

PhD students in Japan, Korea and Taiwan must be nominated by their university. After the university's nomination is completed, either an official representative of the university or the nominated students can submit applications during the application window. Please see the FAQ for more information.

India and Southeast Asia

PhD students apply directly during the application window. Please see the FAQ for more information.

Latin America

The 2024 application cycle is postponed. Please check back in 2025 for details on future application cycles.

Google PhD Fellowship students are a select group recognized by Google researchers and their institutions as some of the most promising young academics in the world. The Fellowships are awarded to students who represent the future of research in the fields listed below. Note that region-specific research areas will be listed in application forms during the application window.

Algorithms and Theory

Distributed Systems and Parallel Computing

Health and Bioscience

Human-Computer Interaction and Visualization

Machine Intelligence

Machine Perception

Natural Language Processing

Quantum Computing

Security, Privacy and Abuse Prevention

Software Engineering

Software Systems

Speech Processing

Applications are evaluated on the strength of the research proposal, research impact, student academic achievements, and leadership potential. Research proposals are evaluated for innovative concepts that are relevant to Google’s research areas, as well as aspects of robustness and potential impact to the field. Proposals should include the direction and any plans of where your work is going in addition to a comprehensive description of the research you are pursuing.

In Canada and the United States, East Asia and Latin America, essay responses are evaluated in addition to application materials to determine an overall recommendation.

What does the Google PhD Fellowship include?

Students receive named Fellowships which include a monetary award. The funds are given directly to the university to be distributed to cover the student’s expenses and stipend as appropriate. In addition, the student will be matched with a Google Research Mentor. There is no employee relationship between the student and Google as a result of receiving the fellowship. The award does not preclude future eligibility for internships or employment opportunities at Google, nor does it increase the chances of obtaining them. If students wish to apply for a job at Google, they are welcome to apply for jobs and go through the same hiring process as any other person.

• Up to 3 year Fellowship
• US $12K to cover stipend and other research related activities, travel expenses including overseas travel
• Google Research Mentor
• 1 year Fellowship
• AUD $15K to cover stipend and other research related activities, travel expenses including overseas travel
• Up to 2 year Fellowship (effective from 2024 for new recipients)
• Full tuition and fees (enrollment fees, health insurance, books) plus a stipend to be used for living expenses, travel and personal equipment
• US $10K to cover stipend and other research related activities, travel expenses including overseas travel
• Yearly bursary towards stipend / salary, health care, social benefits, tuition and fees, conference travel and personal computing equipment. The bursary varies by country.

Early-stage PhD students

• Up to 4 year Fellowship
• US $50K to cover stipend and other research related activities, travel expenses including overseas travel

Late-stage PhD students

• US $10K to recognise research contributions, cover stipend and other research related activities, travel expenses including overseas travel
• US $15K per year to cover stipend and other research related activities, travel expenses including overseas travel

Southeast Asia

• US $10K per year for up to 3 years (or up to graduation, whichever is earlier) to cover stipend and other research related activities, travel expenses including overseas travel

Is my university eligible for the PhD Fellowship Program?

Africa, Australia/New Zealand , Canada, East Asia, Europe and the United States : universities must be an accredited research institution that awards research degrees to PhD students in computer science (or an adjacent field).

India, Latin America and Southeast Asia : applications are open to universities/institutes in India, Latin America (excluding Cuba), and in eligible Southeast Asian countries/regions (Brunei, Cambodia, Indonesia, Malaysia, Myanmar, Philippines, Singapore, Thailand, Vietnam).

Restrictions : All award payments and recipients will be reviewed for compliance with relevant US and international laws, regulations and policies. Google reserves the right to withhold funding that may violate laws, regulations or our policies.

What are the eligibility requirements for students?

All regions

• Students must remain enrolled full-time in the PhD program for the duration of the Fellowship or forfeit the award.
• Google employees, and their spouses, children, and members of their household are not eligible.
• Students that are already supported by a comparable industry award are not eligible. Government or non-profit organization funding is exempt.
• Past awardees from the PhD Fellowship program are not eligible to apply again.
• Grant of the Fellowship does not mean admission to a PhD program. The awardee must separately apply and be accepted to a PhD program in computer science (or an adjacent field) at an eligible institution.
• Grant of the Fellowship will be subject to the rules and guidelines applicable in the institution where the awardee registers for the PhD program.

Nominated students in Africa, Australia and New Zealand, Canada and the United States, East Asia and Europe.

Universities should only nominate students that meet the following requirements:

• Africa: Incoming PhD students are eligible to apply, but the Fellowship award shall be contingent on the awardee registering for a full-time PhD program in computer science (or an adjacent field) within the academic award year of the Fellowship award, or the award shall be forfeited.
• Australia and New Zealand : early-stage students enrolled in the first or second year of their PhD (no requirement for completion of graduate coursework by the academic award year).
• Canada and the United States : students who have completed graduate coursework in their PhD by the academic award year when the Fellowship begins.
• East Asia: students who have completed most of graduate coursework in their PhD by the academic award year when the Fellowship begins. Students should have sufficient time for research projects after receiving a fellowship.
• Europe: Students enrolled at any stage of their PhD are eligible to apply.

Direct applicant students in India, Latin America and Southeast Asia

• Latin America : incoming or early stage-students enrolled in the first or second year of their PhD (no requirement for completion of graduate coursework by the academic award year).

What should be included in an application? What language should the application be in?

All application materials should be submitted in English.

For each student nomination, the university will be asked to submit the following material in a single, flat (not portfolio) PDF file:

• Student CV with links to website and publications (if available)
• Short (1-page) resume/CV of the student's primary PhD program advisor
• Available transcripts (mark sheets) starting from first year/semester of Bachelor's degree to date
• Research proposal (maximum 3 pages, excluding references)
• 2-3 letters of recommendation from those familiar with the nominee''s work (at least one from the thesis advisor for current PhD students)
• Student essay response (350-word limit) to: What impact would receiving this Fellowship have on your education? Describe any circumstances affecting your need for a Fellowship and what educational goals this Fellowship will enable you to accomplish.
• Transcripts of current and previous academic records
• 1-2 letters of recommendation from those familiar with the nominee's work (at least one from the thesis advisor)

Canada, East Asia, the United States

• Cover sheet signed by the Department Chair confirming the student passes eligibility requirements. (See FAQ "What are the eligibility requirements for students?")
• Short (1-page) CV of the student's primary advisor
• 2-3 letters of recommendation from those familiar with the nominee's work (at least one from the thesis advisor)
• Research / dissertation proposal (maximum 3 pages, excluding references)
• Student essay response (350-word limit) to: Describe the desired impact your research will make on the field and society, and why this is important to you. Include any personal, educational and/or professional experiences that have motivated your research interests.
• Student essay response (350-word limit) to: Describe an example of your leadership experience in which you have positively influenced others, helped resolve disputes or contributed to group efforts over time. (A leadership role can mean more than just a title. It can mean being a mentor to others, acting as the person in charge of a specific task, or taking the lead role in organizing an event or project. Think about what you accomplished and what you learned from the experience. What were your responsibilities? Did you lead a team? How did your experience change your perspective on leading others? Did you help to resolve an important dispute at your school, church, in your community or an organization? And your leadership role doesn’t necessarily have to be limited to school activities. For example, do you help out or take care of your family?)

Students will need the following documents in a single, flat (not portfolio) PDF file in order to complete an application (in English only):

• Student applicant’s resume with links to website and publications (if available)
• Short (one-page) resume/CV of the student applicant's primary PhD program advisor
• 2-3 letters of recommendation from those familiar with the applicant's work (at least one from the thesis advisor for current PhD students)
• Applicant's essay response (350-word limit) to: Describe the desired impact your research will make on the field and society, and why this is important to you. Include any personal, educational and/or professional experiences that have motivated your research interests.
• Applicant's essay response (350-word limit) to: What are your long-term goals for your pathway in computing research, and how would receiving the Google PhD Fellowship help you progress toward those goals in the short-term?

How do I apply for the PhD Fellowship Program? Who should submit the applications? Can students apply directly for a Fellowship?

Check the eligibility and application requirements in your region before applying. Submission forms are available on this page when the application period begins.

India, Latin America and Southeast Asia: students may apply directly during the application period.

Africa, Australia, Canada, East Asia, Europe, New Zealand, and the United States : students cannot apply directly to the program; they must be nominated by an eligible university during the application period.

How many students may each university nominate?

India, Latin America and Southeast Asia : applications are open directly to students with no limit to the number of students that can apply from a university.

Australia and New Zealand : universities may nominate up to two eligible students.

Canada and the United States : Universities may nominate up to four eligible students. We encourage nominating students with diverse backgrounds especially those from historically marginalized groups in the field of computing. If more than two students are nominated then we strongly encourage additional nominees who self-identify as a woman, Black / African descent, Hispanic / Latino / Latinx, Indigenous, and/or a person with a disability.

Africa, East Asia and Europe : Universities may nominate up to three eligible students. We encourage nominating students with diverse backgrounds especially those from historically marginalized groups in the field of computing. If more than two students are nominated then we strongly encourage the additional nominee who self-identifies as a woman.

*Applications are evaluated on merit. Please see FAQ for details on how applications are evaluated.

How are applications evaluated?

In Canada and the United State, East Asia and Latin America, essay responses are evaluated in addition to application materials to determine an overall recommendation.

A nominee's status as a member of a historically marginalized group is not considered in the selection of award recipients.

Research should align with Google AI Principles .

Incomplete proposals will not be considered.

How are Google PhD Fellowships given?

Any monetary awards will be paid directly to the Fellow's university for distribution. No overhead should be assessed against them.

What are the intellectual property implications of a Google PhD Fellowship?

Fellowship recipients are not subject to intellectual property restrictions unless they complete an internship at Google. If that is the case, they are subject to the same intellectual property restrictions as any other Google intern.

Will the Fellowship recipients become employees of Google?

No, Fellowship recipients do not become employees of Google due to receiving the award. The award does not preclude future eligibility for internships or employment opportunities at Google, nor does it increase the chances of obtaining them. If they are interested in working at Google, they are welcome to apply for jobs and go through the same hiring process as any other person.

Can Fellowship recipients also be considered for other Google scholarships?

Yes, Fellowship recipients are eligible for these scholarships .

After award notification, when do the Google PhD Fellowships begin?

After Google PhD Fellowship recipients are notified, the Fellowship is effective starting the following school year.

What is the program application time period?

Applications for the 2024 program will open in March 2024 and close in May 2024 for all regions. Refer to the main Google PhD Fellowship Program page for each region’s application details.

A global awards announcement will be made in September on the Google Research Blog publicly announcing all award recipients.

How can I ask additional questions?

Due to the volume of emails we receive, we may not be able to respond to questions where the answer is available on the website. If your question has not been answered by a FAQ, email:

Africa: [email protected]

Australia and New Zealand: [email protected]

Canada and the United States: [email protected]

East Asia: [email protected]

Europe: [email protected]

India: [email protected]

Latin America: [email protected]

Southeast Asia: [email protected]

See past PhD Fellowship recipients.

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Computer Science Ph.D. Program

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The Cornell Ph.D. program in computer science is consistently ranked among the top six departments in the country, with world-class research covering all of computer science. Our computer science program is distinguished by the excellence of the faculty, by a long tradition of pioneering research, and by the breadth of its Ph.D. program. Faculty and Ph.D. students are located both in Ithaca and in New York City at the Cornell Tech campus . The Field of Computer Science also includes faculty members from other departments (Electrical Engineering, Information Science, Applied Math, Mathematics, Operations Research and Industrial Engineering, Mechanical and Aerospace Engineering, Computational Biology, and Architecture) who can supervise a student's Ph.D. thesis research in computer science.

Over the past years we've increased our strength in areas such as artificial intelligence, computer graphics, systems, security, machine learning, and digital libraries, while maintaining our depth in traditional areas such as theory, programming languages and scientific computing.  You can find out more about our research here . 

The department provides an exceptionally open and friendly atmosphere that encourages the sharing of ideas across all areas. 

Cornell is located in the heart of the Finger Lakes region. This beautiful area provides many opportunities for recreational activities such as sailing, windsurfing, canoeing, kayaking, both downhill and cross-country skiing, ice skating, rock climbing, hiking, camping, and brewery/cider/wine-tasting. In fact, Cornell offers courses in all of these activities.

The Cornell Tech campus in New York City is located on Roosevelt Island.  Cornell Tech  is a graduate school conceived and implemented expressly to integrate the study of technology with business, law, and design. There are now over a half-dozen masters programs on offer as well as doctoral studies.

FAQ with more information about the two campuses .

Ph.D. Program Structure

Each year, about 30-40 new Ph.D. students join the department. During the first two semesters, students become familiar with the faculty members and their areas of research by taking graduate courses, attending research seminars, and participating in research projects. By the end of the first year, each student selects a specific area and forms a committee based on the student's research interests. This “Special Committee” of three or more faculty members will guide the student through to a Ph.D. dissertation. Ph.D. students that decide to work with a faculty member based at Cornell Tech typically move to New York City after a year in Ithaca.

The Field believes that certain areas are so fundamental to Computer Science that all students should be competent in them. Ph.D. candidates are expected to demonstrate competency in four areas of computer science at the high undergraduate level: theory, programming languages, systems, and artificial intelligence.

Each student then focuses on a specific topic of research and begins a preliminary investigation of that topic. The initial results are presented during a comprehensive oral evaluation, which is administered by the members of the student's Special Committee. The objective of this examination, usually taken in the third year, is to evaluate a student's ability to undertake original research at the Ph.D. level.

The final oral examination, a public defense of the dissertation, is taken before the Special Committee.

To encourage students to explore areas other than Computer Science, the department requires that students complete an outside minor. Cornell offers almost 90 fields from which a minor can be chosen. Some students elect to minor in related fields such as Applied Mathematics, Information Science, Electrical Engineering, or Operations Research. Others use this opportunity to pursue interests as diverse as Music, Theater, Psychology, Women's Studies, Philosophy, and Finance.

The computer science Ph.D. program complies with the requirements of the Cornell Graduate School , which include requirements on residency, minimum grades, examinations, and dissertation.

The Department also administers a very small 2-year Master of Science program (with thesis). Students in this program serve as teaching assistants and receive full tuition plus a stipend for their services.

RIT graduate pursues Ph.D. across time zones

Nastaran Nagshineh, center, defended her Ph.D. thesis at RIT in April. Faculty from RIT’s Rochester and Dubai campuses served on her thesis committee and include, from left to right, Kathleen Lamkin-Kennard, Steven Weinstein, Nathaniel Barlow, and David Kofke (a professor at the University at Buffalo). Mohamed Samaha participated remotely and appears on the video screen behind the group and alongside Nagshineh’s picture.

Nastaran Nagshineh is one of the first Ph.D. candidates to bridge RIT’s Rochester and Dubai campuses. Her accomplishment creates a path for future students at the university’s international campuses.

Nagshineh completed her Ph.D. in mathematical modeling while working full time as a mathematics lecturer at RIT Dubai in the United Arab Emirates, teaching as many as five classes a semester. She described her Ph.D. journey as “an exercise in perseverance” due to competing demands and long days. Rochester is eight hours behind Dubai, and the time difference meant many late-night classes and meetings.

“I saw this collaboration as an opportunity, rather than as a challenge, because my primary adviser, Dr. Steven Weinstein (RIT professor of chemical engineering), and my co-adviser, Dr. Mohamed Samaha (RIT Dubai associate professor of mechanical engineering), both have the same area of research interest,” she said. “They both worked toward my success.”

Nagshineh is one of 67 RIT Ph.D. students who defended their thesis this academic year and who will earn their doctorate. RIT awarded 63 Ph.D. degrees in 2023.

In 2020-2021, RIT’s Graduate School met and surpassed the university’s goal of conferring 50 Ph.D. degrees during an academic year. That number will continue to grow as students cycle through the seven new Ph.D. programs that RIT has added since 2017, said Diane Slusarski , dean of RIT’s Graduate School.

Meeting these goals puts RIT on a path toward achieving an “R1,” or research-intensive designation, from the Carnegie Classification of Institutions of Higher Learning. RIT is currently ranked as an R2 institution . Many factors go into changing a university’s status, including research investment and maintaining a three-year average of 70 Ph.D. degrees awarded per year, according to Slusarski.

“We have met the goals of the strategic plan, and now we look forward to contributing to the research innovation in the future,” Slusarski said. “We want to help the new programs thrive and win national research awards.”

RIT’s emphasis on high-level research is seen in Nagshineh’s Ph.D. work. She applies mathematical modeling to the field of fluid dynamics. Her research has been published in top-tier journals and has gained notice, said Weinstein, her thesis adviser.

Weinstein describes Nagshineh’s accomplishments as “a testament to a fantastic work ethic and commitment” and is inspirational to younger students at Rochester and Dubai.

“The collaboration between RIT Dubai/Rochester has continued,” he said. “Another paper was submitted a few weeks ago with Mohamed Samaha and Nate Barlow (RIT associate professor in the School of Mathematics and Statistics) as co-authors, as well as Cade Reinberger, a younger Ph.D. student in my research group.”

Mathematical modeling is one of RIT’s newer Ph.D. degree programs, and Nagshineh is among its earliest graduates. The program has doubled in size since it began accepting students in 2017, Slusarski said. This past fall, the mathematical modeling program had 35 students, with two graduating this year.

Altogether, RIT has 13 Ph.D. degree programs currently enrolling 438 students, with computing and information sciences accounting for the largest with 117 students. RIT’s other Ph.D. programs include astrophysical sciences and technology , biomedical and chemical engineering , business administration , color science , electrical and computer engineering, imaging science , mechanical and industrial engineering , microsystems engineering , and sustainability .

New programs in cognitive science and physics will launch in the fall.

The growth in RIT graduate education—with more than 3,000 master’s and doctoral students—reflects a demographic change in the student population, Slusarski said. “We have a higher percentage of women in the graduate programs than we have for RIT undergraduate programs.”

RIT’s graduate programs enroll 42 percent women, according to Christie Leone , assistant dean for the Graduate School.

Nagshineh, who also holds an MS in electrical engineering from RIT Dubai, welcomes her role as a mentor to other women students on both campuses.

“As a young woman in an Arabic country, the power of women is often underestimated and undervalued, and I hope to serve as a role model to female students, especially those that question their path,” Nagshineh said.

She plans to continue in her career as a professor and a researcher. “I would like to pursue a research program where I can advise my own students and teach them more deeply.”

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Skylar Dannoff

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Skylar Dannhoff receives the prestigious DOE-NNSA Laboratory Residency Graduate Fellowship

Johan Frenje

May 8, 2024

Skylar Dannhoff, a third-year graduate student in the Department of Physics has been awarded the prestigious 2024 Department of Energy National Nuclear Security Administration Laboratory Residency Graduate Fellowship (DOE NNSA LRGF).

Under supervision of Drs.  Chikang Li and Johan Frenje , Dannhoff studies electric and magnetic fields generated in a hohlraum plasma in an indirect-drive Inertial Confinement Fusion (ICF) experiment, in addition to building nuclear diagnostics for studies of ICF and High Energy Density (HED) plasmas. For her LRGF GF residency, Dannhoff will work under the mentorship of Dr. Chris Walsh at the Lawrence Livermore National Laboratory (LLNL) studying the impact of self-generated electric and magnetic fields in laser-driven ICF experiments. Dannhoff said, “I feel incredible lucky to have been offered the opportunity to work so closely with and learn from the expertise of LLNL scientists. I think this fellowship and my residencies with LLNL will add to both the depth and the broader utility of my research, and I'm grateful to my current and past research advisors, mentors, and group members for their support and encouragement.” Her direct MIT supervisor on this project, Dr. Chikang Li, commented, “The LRGF program provides a unique opportunity allowing Skylar not only to perform comprehensive magnetohydrodynamic (MHD) simulations for her PhD thesis projects, but also get exposed to, and communicate with, scientists at the national laboratories.”

The DOE NNSA LRGF connects students working in fields relevant to the DOE lab system with laboratory scientists with the aim of fostering collaborative research relationships. The program will strengthen these university-laboratory links through an unusual and exciting provision: fellows will work and study in residence at one or more of four approved DOE NNSA facilities for a minimum of two 12-week periods. This residency requirement opens compelling research opportunities to students and their advisors, including access to unique DOE NNSA experimental and computing facilities. Additionally, by training researchers in advanced science and engineering, the fellowship is helping to fill key gaps in the U.S. workforce.

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Graduate and undergraduate students to present research at Nutrition 2024 in Chicago.

Congratulations to Helena Ge (Sargent ’25, M.S./DPD/DI) and Sorochi Anyaibe (Sargent ’25, B.S. Health Science) whose abstract submissions on their research with Dr McCrory to Nutrition 2024 were accepted. The meeting takes place in June/July 2024.

Ms Ge will be presenting some results of her study on the safety, feasibility, and compliance with wearing the AIM-2 for assessing dietary intake in patients with chronic kidney disease. The study was a collaboration with Dr Vipul Chitalia at Boston Medical Center and Edward Sazonov from the University of Alabama, Tuscaloosa. Several Eating Patterns and Metabolism Lab members assisted with the study including Sorochi Anyaibe, Yunkeli Lin (Sargent ’24, B.S. Nutrition/Dietetics), Manan Patel (Sargent ’24, B.S. Human Physiology), and Tianran Ye (Sargent ’22, B.S. Nutrition/Dietetics; Sargent ’24, M.S./DPD) and coauthored the abstract. 

Ms Anyaibe will be presenting some results of her study investigating the timing of eating and energy intake in urban and rural households in Ghana which were assessed using images time stamps from the AIM-2, a wearable camera. That study was part of a larger research project funded by the Bill&Melinda Gates Foundation and with research collaborators from the University of Georgia, the University of Alabama, the University of Pittsburgh, Baylor College of Medicine, University College London, and the University of Ghana.

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Dear Colleague Letter: Non-Academic Research Internships for Graduate Students in Hydrogen and Fuel Cell Technologies (Hydrogen INTERN) Supplemental Funding Opportunity

May 6, 2024

Dear Colleague:

Fostering the growth of a globally competitive and diverse research workforce and advancing the scientific and innovation skills of U.S. students are strategic objectives of the National Science Foundation (NSF). Supporting the development of a skilled workforce in energy efficiency and renewable energy is a strategic objective of the U.S. Department of Energy (DOE). The NSF and DOE's Office of Energy Efficiency and Renewable Energy (EERE) have established a partnership to support internship and training opportunities to meet these strategic objectives with a focus on hydrogen and fuel cell technologies. A new generation of skilled workforce is needed to drive research and development of hydrogen production, delivery, infrastructure, storage, fuel cells, and multiple end uses across transportation, industrial, and stationary power applications. For more information on DOE-EERE's priorities for hydrogen energy research, please see the DOE's Hydrogen Program Areas and the U.S. National Clean Hydrogen Strategy Roadmap .

This Dear Colleague Letter (DCL) describes this unique partnership with DOE EERE's Hydrogen and Fuel Cell Technologies Office (HFTO) and is aligned with and conforms with the NSF INTERN opportunity described in the Dear Colleague Letter: Non-Academic Research Internships for Graduate Students (INTERN) Supplemental Funding Opportunity . This DCL is referred to as the Hydrogen INTERN DCL.

SUPPLEMENTAL FUNDING OPPORTUNITY

NSF will consider supplemental funding requests in the broad area of hydrogen and fuel cell technologies that enable PIs (or Co-PIs) to request supplemental support of up to $55,000 and six months for graduate students supported on active NSF grants with the following goals:

• To provide graduate students with the opportunity to augment their research assistantships or NSF Graduate Research Fellowship Program (GRFP) fellowships with research internship activities and training opportunities that will complement their academic research training.
• To allow graduate students to pursue new activities aimed at acquiring professional development experience that will enhance their preparation for multiple career pathways after graduation.
• To encourage the participation of the full spectrum of diverse talent in science, technology, engineering, and mathematics (STEM).

DESCRIPTION OF THE ACTIVITIES SUPPORTED

The PI/co-PI of an active NSF award may request supplemental funding for one or more graduate students to gain knowledge, skills, training, and experiences in hydrogen and fuel cell technologies and their application areas.

Internship hosts include, but are not limited to:

• Private sector companies, laboratories, or industry research and development groups.
• Start-up businesses such as, but not limited to, those funded through the NSF's Small Business Innovation Research (SBIR) program and Small Business Technology Transfer (STTR) programs.
• Department of Energy Laboratories, other government agencies (all levels), and National Laboratories.
• Museums, science centers, and other informal learning settings that educate the public.
• Policy think-tanks.
• Non-profit organizations.

Prior to submission, PIs are encouraged to discuss possible INTERN supplements with the cognizant NSF Program Director Points of Contact listed in this DCL to ensure the proposed internship and its topic are a good fit for this DCL. It is expected that the graduate student and the PI on the NSF grant will work together to identify experiences that add the most educational value for the graduate student through activities that are not already available at the student's academic institution. Further, it is expected that the internship will be research-focused and will be on-site at the host organization unless a specific exception to this is granted by the cognizant Program Director due to extenuating circumstances.

ELIGIBILITY

To be eligible for this opportunity, graduate students must have completed at least one academic year in their graduate program (master's or doctoral) prior to commencement of the proposed INTERN activity and be making satisfactory progress toward completion of their degree.

SUPPLEMENTAL FUNDING REQUEST PREPARATION INSTRUCTIONS

Information about requesting supplemental support is contained in the NSF PAPPG ), Chapter VI.E.5. In addition to the PAPPG requirements for supplemental support, the following materials must be included.

• A two-page summary that describes the internship
• A one-page personal statement from the graduate student describing career goals, accomplishments, and how the activity will better prepare the individual to enter the workforce.
• Research summary to include contribution(s) to research discipline
• Institution(s)
• Year of study (1st year, 2nd year, etc.)
• Completed coursework
• Employment and volunteer/outreach history
• Publications (accepted only)
• Other information relevant to the proposed internship
• A letter of collaboration from an authorized official at the host organization that describes the internship opportunity and mentoring the student will experience during the internship. The letter should include a statement confirming that neither the graduate student nor the PI has a financial interest in the organization hosting the internship.
• An endorsement letter from the PI that confirms that the student meets the eligibility requirements specified in this DCL. The letter must describe how the proposed internship activity will contribute to the student's graduate education experience and how it may impact time to degree.
• The NSF recipient and Host Organization must agree in advance as to how intellectual property (IP) rights will be handled. A signed agreement on IP (including publication and patent rights) must be submitted either as a supplementary document or, via email to the cognizant Program Director after submission of the supplementary funding request and prior to the award of the supplemental funding. NSF is responsible neither for the agreement reached nor the IP information exchanged between the NSF recipient and Host Organization.
• A budget and budget justification.

SUPPLEMENTAL FUNDING AMOUNT

The total amount of funding requested must not exceed $55,000 per student per six-month period. NSF plans to fund up to approximately 10 or more supplements in each fiscal year starting with FY 2024, depending on availability of funds.

ALLOWABLE COSTS UNDER THIS DCL

Funds may be used to support travel, tuition and fees, health insurance, additional stipend, and temporary relocation costs for the graduate student. Additional stipends are not allowed for GRFP fellows "on tenure" (currently receiving a GRFP stipend), but a stipend will be considered for fellows "on reserve" (not currently receiving a GRFP stipend) equal to the monthly rate of the GRFP stipend. Up to $2,500 may be used for the PI or the graduate research fellow's advisor to travel to work with the host organization in co-mentoring the student during the internship. Up to $2,500 may be used for materials and supplies to support the student during the internship. Travel costs must be allocated in the budget request for the graduate student to travel once to Washington DC, to present the outcomes of the INTERN project at the DOE's Annual Merit Review meeting. The recipient is permitted to request indirect costs in accordance with their approved/negotiated indirect cost rate. The total requested budget cannot exceed the limits listed under the "Supplement funding amount" section above. Note: Spousal and dependent travel are not supported.

PERIOD OF SUPPORT

The supplement funding will provide up to six months of support for an internship. Up to two supplemental funding requests may be submitted on a grant per student. This would allow the student up to two internship periods of up to six months each (i.e., a maximum of 12 months per student).

Supplemental funding requests may be submitted at any time with a target date of June 15 for Fiscal Year 2024 and April 15 for future Fiscal Years.

SUBMISSION & REVIEW

Requests for supplemental funding must be submitted electronically via Research.gov. A PI or co-PI on an NSF award must contact his/her cognizant program director prior to submission. GRFP INTERN supplement requests are submitted by the GRFP PI, not by the GRFP fellow or the fellow's research advisor. Requests for supplemental funding submitted in response to this DCL will be reviewed internally by NSF Program Officers. All supplements are subject to (a) the availability of funds, and (b) merit review of the supplemental funding request.

• Dr. Prakash Balan, [email protected] - Directorate for Engineering
• Dr. Barbara Ransom, [email protected] - Directorate for Geosciences

SPECIAL AWARD CONDITION

Intellectual Property Rights: Internships under this DCL are considered equivalent to traineeships. The National Science Foundation claims no rights to any inventions or writings that might result from its traineeship awards. However, trainees should be aware that NSF, another Federal agency, or some private party may acquire such rights through other support for particular research. Also, trainees should note their obligation to include an Acknowledgment and Disclaimer in any publication.

POLICY OR CODE ADDRESSING HARASSMENT

Recipients are required to have a policy or code of conduct that addresses sexual harassment, other forms of harassment, and sexual assault. The recipient should work with the Host Organization to ensure that the Host Organization also has a policy or code of conduct that addresses sexual harassment, other forms of harassment, and sexual assault including reporting and complaint procedures and to confirm that such policy both covers and protects INTERN students interacting with the Host Organization. The recipient should also coordinate with the Host Organization to provide orientation to graduate students to cover expectations of behavior to ensure a safe and respectful environment, and to review the recipient and host organization's policy or code of conduct addressing sexual harassment, other forms of harassment, and sexual assault, including reporting and complaint procedures. For additional information, see the NSF policies at https://new.nsf.gov/stopping-harassment .

Susan Marqusee, Assistant Director Directorate for Biological Sciences (BIO)

Dilma Da Silva, Acting Assistant Director Directorate for Computer and Information Science and Engineering (CISE)

James L. Moore III, Assistant Director Directorate for Education and Human Resources (EDU)

Susan Margulies, Assistant Director Directorate for Engineering (ENG)

Alexandra Isern, Assistant Director Directorate for Geosciences (GEO)

C. Denise Caldwell, Acting Assistant Director Directorate for Mathematical and Physical Sciences (MPS)

Alicia Knoedler, Office Head Office of Integrative Activities (OIA)

Kendra Sharp, Office Head Office of International Science and Engineering (OISE)

Kaye Husbands Fealing, Assistant Director Directorate for Social, Behavioral and Economic Sciences (SBE)

Erwin Gianchandani, Assistant Director Directorate for Technology, Innovation and Partnership (TIP)

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May 9, 2024

• College of Arts and Sciences names Mary Cain associate dean for research and graduate studies

Submitted by Marcia Locke

Following a national search, Kansas State University's College of Arts and Sciences has named Mary Cain its new associate dean for research and graduate studies. She succeeds Chris Culbertson, who became dean of the college in June 2023.

Cain is a professor in the psychological sciences department, where she has been directing the graduate program since 2021. She joined the department as a professor in 2004 and served as director of its Behavioral Neuroscience Graduate Program from 2005 to 2021. She has also been a member of the Cognitive and Neurobiological Approaches to Plasticity, or CNAP, Center and served on many college and university committees and task forces.

"I am very excited to have Dr. Cain join our team as associate dean for research and graduate studies," Culbertson said. "She brings a wealth of experience and knowledge to the position and will be invaluable to the college in helping us grow our research enterprise and support graduate students and faculty."

Cain has received the University Distinguished Faculty Award for Mentoring of Undergraduate Students in Research and the Commerce Bank Undergraduate Outstanding Teaching Award, and she is a fellow of the American Psychological Association and the Midwestern Psychological Association.

As associate dean for research and graduate studies, Cain will work with the dean to support and grow the college's research, scholarship, creative and discovery activities. She will foster interdisciplinary collaboration, promote the development of early career faculty, interface with the Office of the Vice President for Research, support college strategic planning and data analysis, and manage the college's instructional fees program and faculty enhancement program. She will also represent the college on the Associate Deans for Research Council and serve as a liaison to the Graduate School.

Cain holds a bachelor's degree in psychology from Manhattan College and a doctoral degree in experimental psychology from the University of Vermont. She completed a postdoctoral fellowship at the University of Kentucky.

In this issue

From the administration.

• Reminder: All-University Awards Ceremony today
• Search begins for two corporate engagement positions
• Research Weekly
• First-generation Student Center to host graduation celebration May 10
• Masaki Uchida to present Chemistry Seminar
• Spectrum Center providing rainbow tassels for commencement
• Join Prairie People Happy Hour on May 30

Personnel changes

• Professor in engineering and technology appointed
• Hagenmaier to retire from Global Campus on May 25
• Maria Beebe retiring from K-State after 26 years

Kudos, publications and presentations

• Andrew Hope selected as Fulbright US Scholar
• Gardiner Angus Ranch honors renowned K-State agricultural economist
• English department honors students, faculty with spring awards
• Division of Biology names most promising students
• K-State students awarded nuclear engineering scholarships from the US Department of Energy
• Students recognized as outstanding and resilient seniors from the College of Business Administration
• Brown announced as Mistler Outstanding Blue Key Alumni Award recipient
• Graduating seniors and scholarship recipients in physics recognized
• Kilgore performs concerto with Salisbury Symphony Orchestra
• APDesign graduates recognized for achievements in APDPro
• McKenna Johnson awarded Michael E. Brown Alpha Tau Omega Mortar Board Leadership Scholarship
• Industrial and manufacturing systems engineering students recognized for outstanding achievements
• School of Music, Theatre, and Dance honors faculty with inaugural awards
• Pre-Professional and Exploratory Advising Center recognizes outstanding graduates
• College of Business Administration announces fellowships and excellence award

University life

• Time is running out: Complete the Manhattan campus parking survey by May 15
• Summer hours for K-State Libraries
• Statements and disclosures
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• 785-532-6011
• © Kansas State University
• Updated: 3/16/16