Stanford University
Showing 741-760 of 2,728 Results
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Meghan Halley
Assistant Professor (Research) of Pediatrics (Stanford Center for Biomedical Ethics)
BioMeghan Halley, PhD, MPH is Assistant Professor of Pediatrics (Research) in the Center for Biomedical Ethics at Stanford University School of Medicine. With training in medical anthropology, public health and health services research, her scholarship draws on multidisciplinary theoretical and methodological approaches to examine ethical, legal, social and policy questions arising in clinical and translational research. Her areas of expertise include the ethics of new genomic technologies, normative frameworks for integrating research and clinical care, challenges and opportunities in patient and community engagement, and the epistemic and ethical implications of valuing new health interventions. Her work has been funded by the National Institutes of Health, the Patient Centered Outcomes Research Institute, and the National Science Foundation and published in high-impact journals including the New England Journal of Medicine, Nature Genetics, and the American Journal of Bioethics.
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Zherui Han
Postdoctoral Scholar, Electrical Engineering
BioZherui Han received his Ph.D. (2024) in Mechanical Engineering from Purdue University, and B.S. (2019) in Energy and Power Engineering from Huazhong University of Science and Technology in China. He is a recipient of Purdue's Ross Fellowship and Bilsland Dissertation Fellowship. He is now a postdoc at Stanford developing theory for thermal and electronic transport in 2D systems and devices. His prior works include first-principles modeling of phonon dynamics.
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Dina Hany
Postdoctoral Scholar, Biomedical Data Sciences
BioI am currently a postdoctoral researcher in the laboratory of Prof. Sylvia Plevritis, Department of Biomedical Data Sciences. My current work involves establishing drug testing platforms to evaluate tumor drug responses with respect to the tumor microenvironment and the its spatial organization. I hold a Ph.D. in Life Sciences (Pharmaceutical Sciences) from the University of Geneva, Switzerland, where I conducted research in Prof. Didier Picard's laboratory from 2017 to 2022. Prior to that, I earned a Master’s degree in Pharmacology and Experimental Therapeutics from Alexandria University, Egypt, and a Bachelor’s degree in Pharmacy with honors from Pharos University. My professional experience includes postdoctoral research in molecular pharmacology at UNIGE and a lecturer position in Pharmacotherapeutics and Cancer Biology at Pharos University. I have extensive teaching experience, supervising undergraduate and postgraduate courses, and have successfully guided master's thesis projects. My research has focused on endocrine resistance in breast cancer, utilizing CRISPR/Cas9 screens and exploring drug combinations, resulting in several relevant publications. I have presented my work at numerous conferences and received several awards, including the Ernst et Lucie Schmidheiny Fondation grant and the Ph.D. Booster prize from the faculty of medicine, Geneva, Switzerland. I am an active member of the Life Sciences Switzerland (LS2) and the European Association of Cancer Research (EACR).
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Sheikh Rubaiat Ul Haque
Postdoctoral Scholar, Photon Science, SLAC
BioRubaiat received his undergraduate degree in Applied Physics from the University of Tokyo in 2017. He then moved to the University of California San Diego where he finished his PhD in Physics under Professor Richard Averitt in 2023. During his PhD, he discovered light-induced terahertz parametric amplification and photonic time crystal state in excitonic insulator candidate Ta2NiSe5. His discovery has been featured in multiple media outlets including UCSD Today, Max Planck Institute Newsletter, EurekAlert! and Phys.org. He has also demonstrated a novel extreme-efficient nonresonant nonlinear magnon generation mechanism in Mott insulating Heisenberg antiferromagnet Sr2IrO4.
Currently, Rubaiat is a postdoctoral scholar at Stanford University investigating terahertz field-induced ultrafast dynamics in van der Waals materials under Professors Tony Heinz and Aaron Lindenberg. At Stanford, he has discovered terahertz-driven transition to a hidden magnetic state in van der Waals (vdW) antiferromagnet MnPS3. He has recently extended his research to subdiffractive THz spectroscopy of 2D vdW materials. His research interests also broadly include Floquet engineering, ultrafast microscopy, and cavity control of quantum materials. In the long term, Rubaiat aims to continue investigating quantum materials that may provide promising platforms for light-driven emergent phenomena and programming light-matter interactions, serving as a bridge between next-generation photonics and materials science. -
Prashant Hariharan
Postdoctoral Scholar, Neurosurgery
BioPrashant Hariharan is a biomedical engineer specializing in the design of "fit-for-purpose" in vitro models to study neurological disorders. He earned his B.E. from the University of Mumbai, an M.S. from the University of Texas at Arlington, an M.Eng. from Cornell University and a PhD from Wayne State University. His doctoral work with Dr. Carolyn A. Harris focused on developing an "organ-chip" model of the choroid plexus to study how cerebrospinal fluid secretion is affected by hydrocephalus. As a postdoctoral scholar in the Fame lab, Prashant is adding new layers of physiological complexity to his previous model to investigate how the body’s circadian clock regulates choroid plexus-driven cerebrospinal fluid production and composition. This work aspires to deliver model-driven insights that can be translated into CSF-centric therapies and ultimately advance the pursuit of precision medicine for brain health.
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Anthony Harris
Postdoctoral Scholar, Genetics
BioAnthony Harris is a postdoctoral fellow in the Department of Genetics at Stanford School of Medicine, where he investigates the organization and function of the genome during cellular development. His research focuses on uncovering fundamental principles of chromosome structure, cellular differentiation, and genome stability. By combining experimental molecular biology, computational modeling, and third generation sequencing technologies, Dr. Harris aims to elucidate the mechanisms that shape chromatin architecture and direct genome maintenance. His interdisciplinary approach integrates cutting-edge quantitative analysis with traditional molecular techniques to advance understanding of the relationship between cellular organization and disease.
Dr. Harris has developed computational tools for genomic data analysis and applies data-driven strategies to study chromatin structure and gene regulation. His work has been published in leading journals, including EMBO Journal, Genetics, and Developmental Cell, with projects spanning meiosis regulation, transcriptional control, and genome integrity. These experiences reflect his commitment to understanding how chromatin organization and gene expression guide cell fate and function.
Dr. Harris earned his Bachelor of Science in Biochemistry from the University of Minnesota and his Ph.D. in Molecular and Cellular Biology from the University of California, Berkeley. He brings expertise in data analysis, computational biology, scientific writing, and collaborative research. His broad training spans biochemistry, cell biology, microbiology, genetics, and computational genomics.
