Stanford University
Showing 1,501-1,600 of 2,728 Results
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Simona Meiler
Postdoctoral Scholar, Civil and Environmental Engineering
BioI am a weather and climate risk scientist, studying how hazard, exposure, and vulnerability interact to shape the risks and impacts of extreme weather events – both today and in a changing climate. My work combines modeling and systems thinking to explore a range of topics, including tropical cyclone risk, uncertainty and sensitivity analysis, human displacement, post-disaster recovery, and systemic risk. My approach is inherently interdisciplinary, with the goal of translating model insights into real-world applications that support climate-resilient decision-making.
I am currently a postdoctoral researcher at Stanford University, supported by an SNSF Postdoc.Mobility fellowship, working with Prof. Jack W. Baker. I completed my PhD at ETH Zurich in weather and climate risk modeling, with a focus on global tropical cyclone risk and uncertainty quantification, under the supervision of Prof. David N. Bresch. -
Esmeralda Melgoza
Postdoctoral Scholar, Emergency Medicine
BioEsmeralda Melgoza, PhD, MPH, CHES is a postdoctoral researcher in the Department of Emergency Medicine at Stanford University's School of Medicine. Her research examines health inequities in the U.S. healthcare system, with a focus on emergency medical services provided in the prehospital setting and the emergency department. She centers her research on the experiences of underserved populations, including Latine/Hispanics, older adults, and people with limited English proficiency. She is trained in both quantitative and qualitative methods. Her research has been published in peer-reviewed journals, including JAMA Network Open, Medical Care, the Journal of the American Heart Association, Health Affairs Scholar, Prehospital Emergency Care, and SSM-Qualitative Research in Health, among others. She is a current recipient of a grant from the CARESTAR Foundation.
Dr. Melgoza received her PhD in Community Health Sciences from the UCLA Fielding School of Public Health and a minor in Gerontology from the USC Leonard Davis School of Gerontology. Her dissertation research was funded by an R36 grant from the National Institute on Aging. Dr. Melgoza is a former Senior Research Analyst at the UCLA Latino Policy and Politics Institute and an alumna of the Yale Ciencia Academy at Yale University. She is bilingual in English and Spanish. In her spare time, she enjoys spending time with her family, traveling, mentoring, and hiking. -
Christopher J. Miller
Postdoctoral Scholar, Photon Science, SLAC
BioI am a chemist and Postdoctoral Scholar at SLAC National Accelerator Laboratory, where my research focuses on the core challenges of electrochemical energy conversion and sustainable chemistry. Working within the DOE BETO CO2RUe consortium, I investigate the dynamic behavior of catalysts in CO₂ electrolyzers. My primary approach involves using advanced operando characterization techniques, particularly X-ray Absorption Spectroscopy (XAS), to build comprehensive models that link a catalyst's atomic-scale structure to its real-world device performance.
My philosophy is that progress requires bridging fundamental science with practical systems engineering. To that end, my expertise includes the ground-up design, construction, and automation of experimental systems. I specialize in building fully integrated electrochemical test stations and gas delivery infrastructure, tailored to deliver high-quality, reproducible data with robust safety features and remote-operation capabilities. Complementing this hardware, I develop custom MATLAB software suites to automate data processing and analysis, significantly accelerating the path from raw data to actionable scientific insight.
In addition to my research, I am deeply committed to education and professional service. As a recent fellow in Stanford's Preparing Future Professors (PFP) program, I received formal training in pedagogy and gained direct mentorship experience at San Jose State University. This commitment extends to the broader scientific community through my long-standing leadership roles within the American Chemical Society (ACS), where I contribute to governance, chemical safety initiatives, and professional development for younger chemists. I am always interested in discussing new collaborations at the intersection of spectroscopy, catalysis, and system design. -
Yan Mia Min
Postdoctoral Scholar, Cardiothoracic Surgery
BioYan Mia Min is currently a Ph.D. candidate in Epidemiology and Population Health and a Stanford Data Science Scholar. Her background is in medicine and health economics. She completed her residency in general surgery. She just completed her Master's in Statistics in the summer of 2022.
Yan has worked as a health policy analyst in the health finance cluster at the World Health Organization in Geneva. She also took a leadership role in establishing the WELL Living Laboratory Cohort at the Stanford Prevention Research Center.
Yan’s current research is focused on rigorous causal inference theories and modeling in large-scale observational settings, with particular applications in cardiothoracic surgeries, where randomization is often unavailable. Her training in epidemiology makes her share a strong sense of integrity in research conduct. Along with her teammates, Yan is writing an e-book, Open, Rigorous and Reproducible Science: A Practitioner’s Manual, to address the following three phases of scientific research: design, analysis, and publication. -
Pardis Miri
Basic Life Research Scientist, Genetics
BioPardis Miri, PhD, is a Research Scientist and former Postdoctoral Fellow at Stanford University, where she develops technology aimed at improving mental well-being. She holds a PhD in Computer Science and has extensive training in affective science under Professor James J. Gross. Pardis leads a multidisciplinary team (http://wehab.stanford.edu
) conducting clinical and real-world studies to assess how wearable technologies can reduce stress and enhance glymphatic flow in early-stage Alzheimer’s patients.
During her postdoctoral work, Pardis served as the principal investigator of FAR, a multi-disciplinary project to design, build, and evaluate an end-to-end wearable system for children with emotion dysregulation, including those diagnosed with autism spectrum disorder. FAR aims to support more adaptive emotion-regulation strategies through a combination of systems design and behavioral research.
Pardis is advised by Professors Michael Snyder, Keith Marzullo, and James J. Gross, and collaborates with Professor Antonio Hardan of the Stanford School of Medicine on research involving children with autism spectrum disorder. -
Mohammad Javad Mirshojaeian Hosseini
Postdoctoral Scholar, Chemical Engineering
BioWith over Seven years of experience, my work focuses on designing, fabricating, and characterizing flexible nanostructures and organic neuromorphic circuits. My expertise extends to hands-on experience in ISO 4 cleanrooms and fabrication labs, employing a variety of techniques such as electron beam and thermal PVD, ALD, sputtering, photolithography, CVD, profilometry, and wet chemical processing. I have a strong foundation in advanced materials and technologies, including neuromorphic systems, nanofabrication, biosensors, lab-on-a-chip technologies, printing electronics, and organic nanoelectronics.
Currently, I am a postdoctoral researcher at Stanford University, where I explore stretchable neuromorphic e-skin and flexible electronics, particularly for biopotential monitoring and soft robotics applications. My multidisciplinary expertise enables me to contribute to projects that combine neuromorphic computing, smart materials, and neuroscience. These align with my long-term research goals of advancing neuromorphic systems and developing novel technologies at the interface of artificial intelligence, smart materials, and organic electronics. -
Vaishali Mittal
Member, Maternal & Child Health Research Institute (MCHRI)
BioVaishali Mittal, MD is a Postdoctoral Clinical Fellow in the Department of Dermatology at Stanford University under the guidance of Dr. Jean Y. Tang.
Her current research is focused on epidermolysis bullosa (EB), a group of rare diseases that cause the skin and mucous membranes to blister easily. She is involved in conducting long-term clinical trials examining the application of an autologous, gene-corrected keratinocyte sheet for the treatment of recessive dystrophic EB (RDEB). In addition, she is currently leading several research projects, including investigation of genotype-phenotype associations in multiple subtypes of EB, creation of an online platform for EB patients/families and investigators to collaborate together on research, and development of an online genetic registry for EB patients using a novel, home-based genetic testing kit.
Vaishali received her medical degree from Stanford University School of Medicine and completed her internship at Beth Israel Deaconess Medical Center/Brockton Hospital. -
Masashi Miyauchi
Basic Life Research Scientist, Medicine - Med/Hematology
BioMasashi Miyauchi, MD, PhD, is a physician-scientist specializing in hematology, oncology, immunology, and stem cell biology, with over a decade of experience in clinical hematology and oncology. Dr. Miyauchi's academic career commenced at Kyoto University, where he obtained his MD in Medicine. He furthered his expertise with a PhD in Internal Medicine from The University of Tokyo, Graduate School of Medicine. Following his comprehensive clinical training and professional appointments at The University of Tokyo Hospital, Dr. Miyauchi embarked on a postdoctoral journey at Stanford University in the Nakauchi lab, starting in July 2019.
Dr. Miyauchi's clinical training is extensive, including a Senior Residency in Internal Medicine and a Clinical Fellowship in Hematology and Oncology at The University of Tokyo Hospital. This period was complemented by his participation in a Cancer Professional Training Plan. After completing his clinical fellowship, Dr. Miyauchi has served in various pivotal roles at The University of Tokyo Hospital and The University of Tokyo. His positions as a clinically-focused Project Assistant Professor and Assistant Professor in the Department of Hematology and Oncology have enabled him to contribute significantly to pioneering research and education for the next wave of medical professionals.
In his PhD research, Dr. Miyauchi specialized in the disease modeling of cancers and cancer stem cells, employing cancer patient-specific induced pluripotent stem cells (iPSCs). His work with iPSCs notably includes scalable ex vivo manufacturing of human neutrophils. In his postdoctoral research under the guidance of Dr. Hiromitsu Nakauchi in Genetics at Stanford, Dr. Miyauchi has been concentrating on developing a stable hematopoietic stem cell (HSC) expansion system in both mouse and human models. His research is focused on exploring the potential applications of this expansion system, underlining his commitment to advancing the fields of stem cell biology, regenerative medicine and oncology. -
Shayan Mohajer Hamidi
Postdoctoral Scholar, Electrical Engineering
Current Research and Scholarly InterestsReasoning in large language models (LLMs) and improving their systematic generalization
Post-training and fine-tuning methods for alignment, reliability, and efficiency
Autonomous agent architectures built on top of foundation models
Generative modeling with diffusion models and their multimodal applications
Theory and optimization methods for modern deep learning systems -
Islam Mohamed Nour Hassan Mohamed
Postdoctoral Scholar, Pediatric Surgery
BioDr. Islam Nour is a molecular virologist with over fifteen years of research experience spanning viral genomics, reverse genetics, and structural–functional analysis of pathogenic RNA viruses. As a previous postdoctoral fellow in Molecular Virology at USDA-ARS, he designed and deployed reverse-genetics systems for IBDV and avian reovirus, integrated Illumina and Oxford Nanopore sequencing with comparative genomics, and coupled these approaches to IHC/IF-based pathogenesis models. His earlier work on rotavirus and SARS-CoV spike evolution, protein modelling, and molecular viral surveillance further strengthened his ability to connect viral sequence variation to phenotypic outcomes and tissue injury. He is particularly motivated to bring this mechanistic and translational expertise to multidisciplinary clinical teams in pediatric liver disease and transplantation in division of pediatric surgery in Stanford Medicine, contributing rigorous viral pathogenesis, vector design, and protein expression skills to clinically relevant models and biomarker discovery.
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Shadi Momtahen
Postdoctoral Scholar, Anesthesiology, Perioperative and Pain Medicine
BioShadi Momtahen holds a BSc and MSc in Computer Science and Engineering, and a Ph.D. in Mechatronic Systems Engineering from Simon Fraser University, where she collaborated with the BC Cancer Agency on deep learning applications for cancer detection and treatment. She previously served as a Postdoctoral Research Fellow in the Department of Medicine at the University of British Columbia, working with the International Collaboration on Repair Discoveries (ICORD) to develop machine learning models for biosensor-based health monitoring.
Currently, Shadi is a Postdoctoral Scholar at the Aghaeepour Lab at Stanford Medicine. Her research focuses on applying deep learning to large-scale medical datasets—including wearable vital signs—to identify clinically relevant patterns and enable predictive, personalized healthcare. -
Samuel Montalvo
Postdoctoral Scholar, Cardiovascular Medicine
BioAs a clinical exercise physiologist and sport biomechanist, I am dedicated to advancing human exercise and sports performance. I hold certifications as a Performance and Sport Scientist (CPSS) and as a Strength and Conditioning Specialist with Distinction (CSCS, *D) from the National Strength and Conditioning Association (NSCA). In 2022, I was honored with the Wu Tsai Human Performance Alliance Post-Doctoral Research Fellowship and a T32 Post-Doctoral Fellowship, Research Training in Myocardial Biology (TIMBS) at Stanford University.
My research focuses on understanding the mechanical, molecular, and physiological mechanisms that underpin human performance. I am also committed to developing innovative and practical training methods to enhance exercise and sports performance. Currently, I am a member of the Stanford Bioinformatics Core, contributing to the NIH-funded Molecular Transducers of Physical Activity Consortium (MoTrPAC) project. In this capacity, I analyze extensive clinical and exercise datasets, as well as multi-omic, multi-tissue, multi-exercise modality, and multi-species data, to uncover new insights into the biological mechanisms of physical activity and its impact on human health and performance.
In addition to my primary research focus, I collaborate with several teams at Stanford on projects involving Sports and Electrocardiography, Cardiopulmonary Exercise Testing, Exercise and Neuromuscular Disease, and the Stanford Baseball Team.
Beyond research, I am deeply committed to teaching and mentoring. As a first-generation college graduate and a Mexican-American with Indigenous heritage, I bring a unique perspective to my work, which informs my dedication to creating supportive and inclusive spaces for underrepresented groups in science and education. I serve as a Post-Doc Mentoring Coach in collaboration with the Stanford Office of Postdoctoral Affairs, where I facilitate bi-weekly workshops on mentoring for postdocs. I am also part of the Stanford PRISM program, which promotes opportunities for postdoctoral scholars. Furthermore, I mentor prospective and current medical students through the MAVERICs program (Metascience Analyses and Explorations of Reproducibility in Cardiovascular Science) as part of the Stanford Cardiovascular Institute, supporting their growth in cardiovascular research.
These experiences reflect my dedication to fostering an inclusive and supportive academic environment. My long-term goal is to become a professor, combining my passion for research, education, and mentoring the next generation of scientists to advance the fields of exercise physiology, multi-omics, and sports science. -
Youngsun Moon
Postdoctoral Scholar, Education
BioSun (Youngsun) Moon is a postdoctoral scholar at Stanford University. Her research centers on literacy development, especially how reading and spelling interact over time, and how assessment data can be used to better understand and support students’ literacy growth across diverse linguistic and educational backgrounds. Ultimately, her goal is to translate research into tools and practices that improve how we assess and support students’ reading and writing development.
At Stanford, she is part of the Rapid Online Assessment of Reading (ROAR) team at the Graduate School of Education, which develops silent, group-administered reading assessments that are open-source, research-based, efficient, and scalable for use in schools. With the ROAR team, she is currently working on expanding the ROAR suite and examining measurement bias (i.e., whether the assessments function differently for students from certain backgrounds). -
Jordan Moore
Postdoctoral Scholar, Materials Science and Engineering
BioJordan Moore is currently a postdoctoral fellow at Stanford University, appointed in both the Departments of Materials Science & Engineering and Neurology. He earned his Ph.D. from The Ohio State University within the Department of Biomedical Engineering, where he was mentored by Dr. Daniel Gallego Perez. During his doctoral studies, Jordan's research primarily centered around the application of electroporation for gene delivery in vivo, with a specific focus on cell-reprogramming.
His work in his Ph.D. program aimed to address the restoration of blood flow to damaged peripheral nerves, contributing to the promotion of nerve regeneration and functional recovery. As a postdoctoral researcher, Jordan is currently co-mentored by Professor Sarah Heilshorn and Dr. Marion Buckwalter. In this role, he is dedicated to the development of innovative biomaterial-based platforms for gene and drug delivery. His research focuses on the treatment of stroke-related injuries and the prevention of cognitive decline. -
Sakib Mostafa
Postdoctoral Scholar, Radiation Physics
BioI am a Postdoctoral Research Fellow at Stanford University with a background in computational genomics and deep learning. My research focuses on developing AI-powered tools for genomic analysis, with a particular interest in cancer classification, pangenomes, and genotype imputation. Previously, I worked as a Research Officer at the National Research Council of Canada, contributing to large-scale sequencing projects and machine learning interfaces for biologists. I am passionate about bridging domain biology with cutting-edge computational methods to solve complex biological questions and drive innovation in precision agriculture and healthcare.
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Eric Mou, MD
Postdoctoral Medical Fellow, Oncology
BioI was born in Oregon and raised in Iowa, where I cultivated my initial interest in science and medicine. I completed my undergraduate degree and medical school at the University of Iowa before heading to Stanford University for my internal medicine residency and oncology fellowship training. I chose this field to try my best in assisting patients during times of great need, and working to understand what is of greatest importance to them as they navigate their unique journey of cancer care. My clinical focus is in the care of patients with lymphoma and other hematologic cancers. My scholarly interests include better understanding the efficacy cancer therapeutics, improving patients' experience as the proceed through treatment, and promoting strength in medical education.
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Solene Moulin
Postdoctoral Scholar, Pathology
BioI am a very curious person who likes to understand how things work and I love to contribute to new discoveries that will help to cope with tomorrow’s challenges. After my studies at the Ecole Normale Supérieure Ulm, I got specialized in plant science. I am interested in this research field because plants are critical for environment as well as for food and bio-energy production. In 2016, I joined CEA Cadarache for my PhD which led me to participate in a research program on hydrocarbon synthesis in algae. I really liked this project which was focusing on both reaching a bio-based production of hydrocarbons for fuel production and deciphering of the hydrocarbon synthesis pathway in algae. I have been leading research to assess the occurrence of this pathway in the different types of eukaryotic algae, its evolutionary history and its relevance for algal physiology. I am now going to study another evolutionary history that has led to a symbiosis between a diatom and a N-fixing cyanobacteria, the latest being on its way to become an organelle. Understanding the physiological relationship between the diatom and the cyanobacteria will help understanding nitrogen cycle and could lead to major innovations in farming.
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Salvinaz Islam Moutusy
Postdoctoral Scholar, Immunology and Rheumatology
BioI am a medical scientist with expertise in basic biomedical research focusing on Microbiology and Immunology. After getting medical license from Bangladesh, I received MD in Medical Microbiology from BSMMU, Bangladesh and MS in Environmental Health Science from the University of Tokyo School of Medicine, Japan.
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Lucas Murray
Postdoctoral Scholar, Biochemistry
Current Research and Scholarly InterestsI use single-molecule tools and approaches to study the assembly and function of molecular machines. I currently am working to understand the interplay between genome structure and kinetochore assembly and function in vertebrates.
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Mete Muslu
Postdoctoral Scholar, Electrical Engineering
BioA. Mete Muslu received his B.Sc. and M.Sc. degrees in Mechanical Engineering from Ozyegin University, Istanbul, Turkey, in 2018 and 2020, respectively, and his Ph.D. in Mechanical Engineering from the Georgia Institute of Technology, Atlanta, GA, USA, in 2025. His doctoral research focused on developing single- and two-phase cooling solutions for integrated power electronics packages and multi-functional cold plates. His current research interests include understanding device-level multi-physics and developing integrated thermal management solutions spanning from the chip to the package level for high-performance computing and power applications.
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Adel Mutahar
Postdoctoral Scholar, General and Vascular Surgery
BioDr. Adel Z. I. Mutahar is a postdoctoral researcher in the Department of Surgery at Stanford University, working under the mentorship of Dr. Frederick M. Dirbas. His research focuses on translational breast cancer biology and emerging radiotherapy technologies, with an emphasis on tumor–microenvironment interactions, immuno-oncology, and preclinical therapeutic development. His academic journey spans three countries—beginning in Yemen, advancing through India, and now progressing at Stanford—reflecting his commitment to impactful cancer research and global scientific advancement.
Dr. Mutahar began his career in Yemen, earning his Bachelor’s degree in Medical Laboratory Sciences before joining Abs Community College as a faculty member. From 2007–2013, he held several academic leadership roles, including Academic Director, Head of Evaluation, and Assistant Dean of Students, where he modernized curriculum, expanded hands-on diagnostic training, and strengthened laboratory education infrastructure in resource-limited settings. His work contributed to building a more skilled medical diagnostics workforce and improving pathways for laboratory science education.
Awarded a prestigious national merit scholarship, Dr. Mutahar continued his graduate and doctoral training in India, completing his M.S. and Ph.D. in Biotechnology with a focus on triple-negative breast cancer. During his doctoral work, he developed 3D tumor spheroid models and combinatorial therapeutic strategies, demonstrating synergy between anti-angiogenic agents and chemotherapy in TNBC. He further advanced this research by creating an orthotopic murine model to investigate metastatic progression and demonstrated that knockdown of the MTA1 gene in mesenchymal stem cells (MSCs) significantly suppressed TNBC invasion, angiogenesis, and metastatic spread, introducing a promising stromal-targeted therapeutic concept for aggressive breast cancer. This work earned recognition through travel grants, conference presentations, and a Best Poster Award. His scientific adaptability was further demonstrated during the COVID-19 pandemic, when he uncovered a novel interaction between SARS-CoV-2 Spike RBD and VEGF signaling.
At Stanford, his work emphases on FLASH radiotherapy, an ultrahigh-dose-rate modality with the potential to widen the therapeutic window by minimizing normal-tissue toxicity while maintaining tumor control. Working within Dr. Dirbas’s translational breast oncology program, Dr. Mutahar employs patient-derived xenografts, orthotopic murine models, spatial transcriptomics, single-cell RNA sequencing, and immune profiling to dissect the biological mechanisms governing treatment response. His research integrates multi-omics analysis to map early and late radiotherapy injury pathways—including senescence, apoptosis and fibrosis. His goal is to develop mechanism-driven radio-immunotherapy strategies and durable FLASH-RT combination regimens that can be translated into clinical trials for breast cancer, improving therapeutic durability, minimizing toxicity, and ultimately enhancing patient outcomes.
Dr. Mutahar’s long-term vision is to establish an independent laboratory at the intersection of radiobiology, immuno-oncology, and translational therapeutics. Guided by Dr. Dirbas’s mentorship and shaped by multidisciplinary experience across three continents, he aims to develop biologically informed treatment strategies that eradicate tumors while preserving normal tissue and immune integrity—ultimately improving quality of life and survival for women with aggressive breast cancers. -
Ben Mylius
Postdoctoral Scholar, Philosophy
Current Research and Scholarly Interestsclimate change, culture and imagination
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Varsha Mysore Athreya
Postdoctoral Scholar, Otolaryngology - Head & Neck Surgery
BioVarsha began her academic journey with a BS in Speech and Hearing from the All India Institute of Speech and Hearing (AIISH) in Mysuru, India. She earned her Master’s degree in Audiology in 2018, with a thesis focused on temporal processing and speech perception in noisy environments. She completed her doctoral degree in May 2024, working with Dr. Bharadwaj on age-related effects on temporal processing and speech perception, and with Dr. Heinz on the effects of peripheral hearing damage on cortical auditory responses. Currently, she is a postdoctoral scholar at Stanford University with Dr. Matthew Fitzgerald, where she is developing pipelines for handling large clinical datasets and applying machine learning to enhance clinical diagnosis and management.
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Dhriti Nagar
Postdoctoral Scholar, Neonatal and Developmental Medicine
BioPremature birth is a leading cause of developmental and neuropsychiatric disorders in children. One of the factors causing these defects is lowered levels of available oxygen (hypoxia) in the newborn due to immature lungs. My research focuses on understanding the cellular and molecular mechanisms underlying hypoxia-induced developmental disorders of the nervous system due to preterm birth.
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Josheena Naggea
Postdoctoral Scholar, Earth System Science
Current Research and Scholarly InterestsJosheena's community-engaged research focuses on small-scale fisheries, disaster impacts and recovery, marine protected area management, and the valorization of natural and cultural heritage in ocean governance. She has a keen interest in understanding people-ocean connections and how that influences pro-ecological behavior and local environmental stewardship.
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Michitaka Nakano
Basic Life Research Scientist, Medicine - Med/Hematology
BioI am a MD/PhD postdoctoral fellow and medical oncologist with a long-standing interest in translational cancer research. My long-term goal is to be a lab-based physician-scientist and independent academic researcher, translating basic cancer research, and mentoring next-generation scientists. My thesis work in Japan focused on cancer stem cell equilibrium by uniquely applying organoid culture as a method to elucidate cancer stem cell dynamics, which was awarded in Japanese Cancer Association. Along with the development of the field represented by success in T cell checkpoint, my interest gradually shifted to immune oncology while I examined numerous numbers of cancer patients as a medical oncology fellow. My postdoctoral fellowship at Calvin Kuo Lab in Stanford (2019-present) focuses on tumor immune microenvironment. Kuo lab developed a unique 3D air-liquid interface (ALI) organoid system that cultures tumors while preserving their endogenous infiltrating immune cells (T,B ,NK, Myeloid cells). My postdoctoral work will prove the significance of organoids as a translational tool to discover tumor-immune interaction by novel checkpoint inhibitors for immune cells, which can be broadly applicable to basic cancer biology, precision medicine, therapeutics validation and biomarker discovery.
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Alireza Namayandeh
Postdoctoral Scholar, Earth System Science
Current Research and Scholarly InterestsAlireza Namayandeh’s research focuses on the formation, transformation, and environmental impacts of metal-bearing nanoparticles in soil, water, and air, with a particular emphasis on their role in wildfire-generated pollution. His work investigates how wildfires contribute to the release and transport of toxic metal nanoparticles, assessing their chemical and physical properties and their implications for human health and ecosystem contamination.
His current research, supported by the NSF Earth Science Postdoctoral Fellowship, explores the mechanisms by which biomass burning generates toxic airborne nanoparticles and how soil mineralogy influences their formation. By combining laboratory experiments, synchrotron-based spectroscopy, electron microscopy, and field studies, he aims to better understand the pathways of metal mobilization during wildfires. He is also leading efforts to analyze ash and soil samples from recent wildfires in California, including the Eaton and Palisade fires in Los Angeles, to assess the risks associated with airborne metal nanoparticles.
Beyond wildfire-driven pollution, he is interested in the fundamental geochemistry of nanoparticle formation and transport. His previous work on precursor clusters of iron oxy-hydroxides provided new insights into the formation of metal-bearing nanoparticles and their role in controlling contaminant mobility in the environment. He continues to explore how ultrafine particles interact with toxic metals, organic matter, and microbial communities in both terrestrial and atmospheric systems.
His broader scholarly interests include wildfire geochemistry, atmospheric particulate matter, environmental mineralogy, and the intersection of environmental geochemistry and public health. His goal is to develop a deeper understanding of how natural and anthropogenic processes influence the formation and dispersion of hazardous nanoparticles, ultimately contributing to improved air quality standards, risk assessment models, and environmental policies in wildfire-prone regions. -
Shingo Narita
Postdoctoral Scholar, Cardiovascular Institute
BioPostdoctoral Fellow
Cardiologist (Japan)
Research expertise: AL amyloid cardiomyopathy, Cardiac regeneration -
Rohollah Nasiri
Postdoctoral Scholar, Radiation Physics
Current Research and Scholarly InterestsMy current research focuses on developing tumor-on-a-chip models for preclinical radiation therapy research.
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Fateme (Fatima) Nateghi
Postdoctoral Scholar, Biomedical Informatics
BioAs a postdoc researcher at the Division of Computational Medicine, I find myself at the exciting intersection of machine learning and healthcare. My journey began with a PhD in Biomedical Sciences from KU Leuven in Belgium, where I explored the complexities of machine learning algorithms and their transformative potential in clinical settings. My research focused on adapting these algorithms for time-to-event data, a method used to predict when specific events may occur in a patient’s future.
At Stanford, my work centers on building trustworthy AI systems to enhance healthcare delivery. I develop and evaluate machine learning models that integrate structured electronic health records (EHRs) and unstructured clinical notes to support real-world clinical decision-making. My recent projects include predicting treatment retention in opioid use disorder, improving antibiotic stewardship for urinary tract infections, and enabling digital consultations through large language models (LLMs). I'm particularly interested in embedding-based retrieval and retrieval-augmented generation (RAG) methods that help bridge cutting-edge AI research with clinical practice.
My role involves not just advancing the integration of machine learning in healthcare but also collaborating with a diverse team of clinicians, data scientists, and engineers. Together, we're striving to unravel complex healthcare challenges and ultimately improve patient outcomes. -
Shaghayegh Navabpour
Postdoctoral Scholar, Psychiatry
Current Research and Scholarly InterestsMy research investigates how genetic, transcriptomic, and epigenomic mechanisms shape brain function and contribute to psychiatric disorders, with a special focus on PTSD. By combining large-scale human genomic data with molecular neuroscience approaches, I aim to identify cell-type-specific pathways and therapeutic targets that advance our understanding and treatment of mental health conditions.
