School of Engineering
Showing 4,701-4,800 of 6,719 Results
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Christopher Re
Professor of Computer Science
Current Research and Scholarly InterestsAlgorithms, systems, and theory for the next generation of data processing and data analytics systems.
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Daniel Reichman
Affiliate, Program-Barrett, C.
BioDaniel Reichman is an Assistant Professor at WPI and a Visiting Scholar at the Department of Computer Science at Stanford University (starting July 2026). He is interested in theoretical questions arising from artificial intelligence as well as using AI for mathematical and scientific discovery. Reichman completed his PhD in computer science and applied mathematics at the Weizmann Institute and held postdoctoral scholar positions at Cornell, Berkeley and Princeton.
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Kate Reidy
Affiliate, Materials Science and Engineering
BioKate Reidy will begin as an Assistant Professor of Materials Science and Engineering at Stanford in September 2026. Her research takes a ‘bottom up' approach to nanoscale design, tailoring material properties by understanding and manipulating their atomic structure. She combines advanced characterization with in situ microscopy to elucidate growth mechanisms, chemical composition, and response to stimuli at the atomic scale.
Her research group aims to push the limits of nanoscale engineering by observing and controlling atomic-scale kinetic and thermodynamic phenomena such as adsorption, diffusion, nucleation, defect and interface formation - mapping such structural dynamics to quantum, energy, and opto-electronic properties. She is broadly interested in the functional utilization of quantum properties of nanomaterials in our classical world.
Prior to joining Stanford, Kate was a Miller Postdoctoral Fellow at UC Berkeley and Lawrence Berkeley National Lab. She completed her PhD in Materials Science & Engineering at MIT as a MIT Energy initiative and William Asbjornsen Albert Memorial Fellow, entitled 'Atomic-Scale Design at the 2D/3D Interface using Electron Microscopy'. She received her B.Sc in Nanoscience, Physics, and Chemistry of Advanced Materials from Trinity College Dublin, Ireland. Her work has been recognized by the MIT School of Engineering, Microscopy Society of America, Materials Research Society Gold Award, 'Best Doctoral Thesis' Award at MIT DMSE, and the Lemelson-Vest Award for Innovation. -
Philipp Reineke
Ph.D. Student in Management Science and Engineering, admitted Spring 2019
Current Research and Scholarly InterestsIn his dissertation research, Phil examines Decentralized Autonomous Organizations (DAOs) and decentralization more generally.
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Martin Reinhard
Professor (Research) of Civil and Environmental Engineering, Emeritus
BioReinhard studies the fate of organic substances in the subsurface environment and develops technologies for the remediation of groundwater contaminated with chlorinated and non-chlorinated hydrocarbon compounds. His research is concerned with mechanistic aspects of chemical and biological transformation reactions in soils, natural waters, and treatment systems.
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Anka Reuel
Ph.D. Student in Computer Science, admitted Autumn 2022
Current Research and Scholarly InterestsCompared to the technical advancements in AI, the area of technical AI ethics is significantly understudied. Novel, complex autonomous systems are being developed without devoting enough time to their potential negative implications and how they can be mitigated. Given the increasing use of such systems throughout society, this discrepancy sparked Anka's interest in contributing to research in responsible AI, both from a technical and a governance perspective.
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Mark Christian Reynolds
Academic Program Professional, Program-Jewett, M.
Current Role at StanfordAcademic Program Professional (School of Engineering)
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Antonio Ricco
Affiliate, Program-Senesky, D.
BioTony Ricco received BS and PhD degrees in Chemistry from UC Berkeley (1980) and MIT (1984), respectively. In Sandia National Laboratories’ Microsensor R&D Department (1984 – 1998), he developed chemical microsensors and integrated microsystems. He was guest professor at the University of Heidelberg's Applied Physical Chemistry Institute (winter 1996 – 1997). From 1999 – 2003, he was ACLARA BioSciences’ Director of Microtechnologies and Materials, developing consumable plastic microfluidic systems for genetic analysis, high-throughput pharmaceutical discovery, proteomics, and pathogen detection. He directed Stanford’s National Center for Space Biological Technologies from 2004 – 2007; from 2007 – 2024, he served as NASA Ames Research Center’s Chief Technologist for Small Payloads while on assignment from Stanford University. From 2003 - 2016, he was a founding member, then adjunct professor, at the Biomedical Diagnostics Institute (BDI, Dublin City University), developing single-platform point-of-care medical diagnostic devices for platelet function, infectious disease, and cardiovascular health. In 2024, he retired from Stanford and joined NASA Ames Research Center as the Instrument Manager for the Programs & Projects Directorate, where he is currently employed.
Dr. Ricco is co-author of some 450 presentations, 300 publications, and 20 patents. He is a Fellow of the American Institute for Medical & Biological Engineering (AIMBE) and of The Electrochemical Society (ECS), former president of ECS's Sensor Division, and, from 2004 – 20024, was Vice President of the Transducer Research Foundation (TRF). He was an editor of the Journal of Microelectromechanical Systems (JMEMS) from 2000 – 2019.
At NASA, Tony works with teams that develop, launch, and operate remote, autonomous bioanalytical and spectroscopy systems for fundamental space biological and astrobiological studies, serving as chief technologist for multiple successful "cubesat" spaceflight missions incorporating living organisms. He is presently adapting these spaceflight technologies to the challenge of searching for molecular indicators of the presence of life on our solar system's "icy worlds", in particular Europa and Enceladus, as well as developing systems to seek molecular evidence of ancient life beneath the surface of Mars. -
Stephen E Richardson
Software Developer Associate, Electrical Engineering
BioPublications: https://scholar.google.com/citations?user=O3IrDzwAAAAJ
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Mouhssine Rifaki
Graduate Visiting Researcher Student, Electrical Engineering
Current Research and Scholarly InterestsI train embodied agents whose perception and foveation adapt while they act. Sensor modality switches and the placement of high-resolution attention are driven by prediction errors from a lightweight world model of near-term observations. The same prediction errors close the loop on control: the policy reads from its currently active sensors, acts, and reshapes what those sensors will see next.
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Ellen Youngsoo Rim
Assistant Professor of Chemical Engineering
BioPlants are increasingly vulnerable to environmental stressors—such as pathogen infection, drought, and heat—from climate change. These challenges threaten global food security and limit the carbon sequestration potential of plants. Our research goal is to sustainably enhance plant productivity and resilience through protein engineering. We engineer proteins involved in plant immune and hormone signaling pathways using directed evolution in high-throughput single cell systems. Directed evolution is a synthetic biology approach that enables rapid development of proteins with novel or improved functions. We combine this approach with machine learning, which allows us to learn from large datasets generated during the directed evolution process. Engineered proteins are then introduced into plants to enhance crop yields and climate resilience.
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Juan Rivas-Davila
Associate Professor of Electrical Engineering and Senior Fellow at the Precourt Institute for Energy
Current Research and Scholarly InterestsModern applications demand power capabilities beyond what is presently achievable. High performance systems need high power density and bandwidth that are difficult to achieve.
Power density can be improved with better semiconductors and passive componets, and by reducing the energy storage requirements of the system. By dramatically increasing switching frequency it is possible to reduce size of power converters. I'm interested in high performance/frequency circuits switching >10 MHz. -
Eric Roberts
The Charles Simonyi Professor in the School of Engineering, Emeritus
BioFrom 1990-2002, Roberts served as associate chair and director of undergraduate studies for the Computer Science Department before being appointed as Senior Associate Dean in the School of Engineering and later moving on to become Faculty Director for Interdisciplinary Science Education in the office of the VPUE.
