Stanford University
Showing 21,201-21,250 of 36,213 Results
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Perla Garcia Miranda
Assistant Director, Scholar Funding, Knight-Hennessy Scholars
BioPerla Miranda García, Assistant Director of Scholar Funding for Knight-Hennessy Scholars (KHS)
Perla received her BA in Politics and Latin American and Latino Studies from the University of California, Santa Cruz and her MA in Latin American Studies from the University of Texas at Austin. In May 2023, she obtained a Master of Public Administration from San José State University. Perla has over 10 years of cumulative experience in student services from positions at the Society for Advancement of Chicanos/Hispanics and Native Americans in Science (SACNAS), the University of Texas at Austin, the University of California at Santa Cruz, and Stanford University. In all these roles, she has used her own experience as a first-generation college graduate to help students navigate academic systems and advise a diverse student population. Currently she works with a passionate and dedicated team to provide a seamless funding experience for KH Scholars. In this role she aspires to empower scholars to optimize Stanford and external resources to enrich their academic experience and contribute to their professional growth. In her free time, Perla enjoys watching movies, going to film and music festivals, hiking to lakes and waterfalls, and playing Rummikub. -
Michelle M. Miranda Vélez
Affiliate, Pathology Research Faculty PTAs
BioMichelle Miranda (she/her) is a postdoctoral scholar in the Dodd Lab in the Pathology Department. Her research interest lies in bridging science and medicine by implementing core chemistry to study and improve human health.
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Tatiana Monserrat Miranda-Benavides
Ph.D. Student in Iberian & Latin American Cultures, admitted Autumn 2025
BioTatiana Monserrat Miranda-Benavides studies literature and philosophy, with a focus on modern Latin American literature and early modern Iberian texts. She approaches these fields through existentialist frameworks to examine questions of subjectivity and temporality.
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Azalia Mirhoseini
Assistant Professor of Computer Science
BioAzalia Mirhoseini is an Assistant Professor in the Computer Science Department at Stanford University. Professor Mirhoseini's research interest is in developing capable, reliable, and efficient AI systems for solving high-impact, real-world problems. Her work includes generalized learning-based methods for decision-making problems in systems and chip design, self-improving AI models through interactions with the world, and scalable deep learning optimization. Prior to Stanford, she spent several years in industry AI labs, including Anthropic and Google Brain. At Anthropic, she worked on advancing the capabilities and reliability of large language models. At Google Brain, she co-founded the ML for Systems team, with a focus on automating and optimizing computer systems and chip design. She received her BSc degree in Electrical Engineering from Sharif University of Technology and her PhD in Electrical and Computer Engineering from Rice University. Her work has been recognized through the MIT Technology Review’s 35 Under 35 Award, the Best ECE Thesis Award at Rice University, publications in flagship venues such as Nature, and coverage by various media outlets, including MIT Technology Review, IEEE Spectrum, The Verge, The Times, ZDNet, VentureBeat, and WIRED.
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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. -
Vijay Mirmira
Adjunct Clinical Assistant Professor, Medicine - Primary Care and Population Health
BioDr. Mirmira believes that excellent communication leads to excellent care, and is dedicated to the health and well-being of his patients and their families. He is fluent in English, Hindi, Tamil and Kannada and has working knowledge of Urdu and Telugu. Apart from enjoying practicing the full scope of family medicine, Dr. Mirmira's special interests include diabetes and thyroid disorders, and pediatric illnesses. He likes to travel and read fiction in his free time.
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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. -
Alicia Mirza
Clinical Assistant Professor, Medicine - Pulmonary, Allergy & Critical Care Medicine
BioDr. Alicia Mirza is quadruple board-certified in Internal Medicine, Pediatrics, Pulmonary Medicine, and Critical Care Medicine. She is now an Assistant Professor in the Division of Pulmonary, Allergy, and Critical Care Medicine (PACCM) at Stanford, where she serves as Associate Director of the Adult Cystic Fibrosis (CF) Program.
She has expertise across a breadth of pulmonary and intensive care domains, with her clinical and research interests centering on CF and bronchiectasis. She is a CF Foundation (CFF) Program for Adult Care Excellence grant awardee. She has worked on quality improvement projects in adult CF care, including initiatives in advanced care planning, pediatric to adult transitions, primary care utilization, and remote monitoring. She is involved in clinical trials as well as registry-based research in both CF and non-CF bronchiectasis.
Nationally, Dr. Mirza was elected to the CHEST Bronchiectasis Network, where she collaborates with experts across the country to expand education in bronchiectasis through podcasts, training modules, and lectures. An active educator, Dr. Mirza teaches Stanford medical students, residents, and fellows. She is engaged both locally and internationally through conference presentations at CHEST, California Thoracic Society, and the North American CF Conference.
She also serves as Co-director of Wellbeing for Stanford PACCM, where she is committed to advancing faculty wellness and fostering a culture of professional fulfillment. In both her clinical and academic work, she emphasizes a holistic approach to supporting patients and colleagues alike, with attention to the whole person and the systems that sustain their health and wellbeing. -
Paul Salomon Mischel
Fortinet Founders Professor and Professor, by courtesy, of Neurosurgery
Current Research and Scholarly InterestsMy research bridges cancer genetics, signal transduction and cellular metabolism as we aim to understand the molecular mechanisms that drive cancer development, progression, and drug resistance. We have made a series of discoveries that have identified a central role for ecDNA (extrachromosomal DNA) in cancer development, progression, accelerated tumor evolution and drug resistance.
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Kavita Mishra
Clinical Associate Professor, Obstetrics & Gynecology
BioDr. Kavita Mishra is a board-certified urogynecologist who specializes in transgender surgery and the treatment of pelvic floor disorders. She has specific training in gender-affirming vaginoplasty, pelvic organ prolapse, and urinary and fecal incontinence. She has expertise in vaginal and minimally invasive reconstructive pelvic surgery, including laparoscopic and robotic approaches.
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Maneesh Kumar Misra
Clinical Associate Professor, Pathology
Current Research and Scholarly InterestsMy research goal is to utilize the cutting edge of stat of art histocompatibility testing to better understand the humoral and cellular responses in clinical transplantation, and to translate this knowledge into improved treatment, and transplant outcome.
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Gabriel Mistelbauer
Senior Research Engineer, Rad/Cardiovascular Imaging
BioGabriel Mistelbauer is a senior research engineer in the Department of Radiology, Stanford University School of Medicine, Stanford, CA, USA, since 2022. Previously, he was a research associate at the Otto-von-Guericke University Magdeburg, Germany (2016-2022) and a postdoctoral researcher at TU Wien, Austria (2013-2016). He received a PhD in Computer Science, in the field of Medical Visualization, in 2013 at TU Wien, Austria, and the habilitation (venia legendi) in Computer Visualization (Computervisualistik) in 2024 at Otto-von-Guericke University Magdeburg, Germany. His research focuses on visual computing and image processing in medicine, in particular on the analysis of vascular structures.
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Percy Khushroo Mistry
5717, Psych/Major Laboratories and Clinical & Translational Neurosciences Incubator
Current Role at StanfordResearch Scholar, Stanford Cognitive and Systems Neuroscience Laboratory
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Tsuyoshi (Yoshi) Mitarai
Clinical Professor, Emergency Medicine
Current Research and Scholarly InterestsCritical Care, optimal resource allocations for inpatient care
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William Mitch
Professor of Civil and Environmental Engineering
BioBill Mitch received a B.A. in Anthropology (Archaeology) from Harvard University in 1993. During his studies, he excavated at Mayan sites in Belize and surveyed sites dating from 2,000 B.C. in Louisiana. He switched fields by receiving a M.S. degree in Civil and Environmental Engineering at UC Berkeley. He worked for 3 years in environmental consulting, receiving his P.E. license in Civil Engineering in California. Returning to UC Berkeley in 2000, he received his PhD in Civil and Environmental Engineering in 2003. He moved to Yale as an assistant professor after graduation. His dissertation received the AEESP Outstanding Doctoral Dissertation Award in 2004. At Yale, he serves as the faculty advisor for the Yale Student Chapter of Engineers without Borders. In 2007, he won a NSF CAREER Award. He moved to Stanford University as an associate professor in 2013.
Employing a fundamental understanding of organic chemical reaction pathways, his research explores links between public health, engineering and sustainability. Topics of current interest include:
Public Health and Emerging Carcinogens: Recent changes to the disinfection processes fundamental to drinking and recreational water safety are creating a host of highly toxic byproducts linked to bladder cancer. We seek to understand how these compounds form so we can adjust the disinfection process to prevent their formation.
Global Warming and Oceanography: Oceanic dissolved organic matter is an important global carbon component, and has important impacts on the net flux of CO2 between the ocean and atmosphere. We seek to understand some of the important abiotic chemical reaction pathways responsible for carbon turnover.
Sustainability and Persistent Organic Pollutants (POPs): While PCBs have been banned in the US, we continue to produce a host of structurally similar chemicals. We seem to understand important chemical pathways responsible for POP destruction in the environment, so we can design less persistent and problematic chemicals in the future.
Engineering for Sustainable Wastewater Recycling: The shortage of clean water represents a critical challenge for the next century, and has necessitated the recycling of wastewater. We seek to understand ways of engineer this process in ways to minimize harmful byproduct formation.
Carbon Sequestration: We are evaluating the formation of nitrosamine and nitraminecarcinogens from amine-based carbon capture, as well as techniques to destroy any of these byproducts that form.
