School of Engineering
Showing 51-100 of 262 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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Anja Redecker, MD
Postdoctoral Scholar, Chemical Engineering
BioAnja Redecker attended medical school in Germany (RWTH Aachen). For her doctoral thesis - under the guidance of Univ.-Prof. Dr. rer. nat. Lüscher – she studied the functions of a protein called ASH2L, which plays a role in tumorigenesis. She analyzed the effects of ASH2L domain deletion mutants on cell growth and histone trimethylation as well as targeted ASH2L fused to dCas9 to specific promoters and examined its effects on transcription activation.
Her current research in the Swartz Lab at Stanford University focusses on engineering Hepatitis B core virus-like particles (HBc VLP) for targeted delivery of chemotherapeutics and for vaccines. The envisioned targeting delivery system allows loading the HBc VLPs with chemotherapeutics and attaching targeting ligands like single chain antibody fragments to the HBc VLP surface. This would increase targeted accumulation of the chemotherapeutic at the tumor site and decrease therapy-limiting side effects by minimizing off-target effects. To combat any new pandemic efficiently, vaccines need to be engineered and produced quickly. This fast response can be made possible by using pre-produced HBc VLPs to which the antigen of the new circulating pathogen can be attached. This technology has the potential to curb the outbreak of a new pandemic. -
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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Rahul Rejeev
Student Employee, Computer Science
Undergraduate, Vice Provost for Undergraduate EducationBio- An incoming Freshman interested in urbanism, computing, and the outdoors.
