School of Engineering
Showing 1-36 of 36 Results
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Tracy Schloemer
Postdoctoral Scholar, Electrical Engineering
BioTracy H. Schloemer earned her B.S. in chemistry and M.A. in educational studies from the University of Michigan. She taught high school chemistry in Denver, Colorado as a Knowles Teaching Initiative fellow and served as a lead contributor to ChemEdX. She earned her Ph.D. in applied chemistry from the Colorado School of Mines in 2019 where she focused on organic semiconductor design for improved operational durability of perovskite solar cells under professor Alan Sellinger and in collaboration with the National Renewable Energy Lab. Her current research focuses on the control and application of excitons in the Congreve Lab. Her interests outside the lab include hiking and cheering on University of Michigan “sportsball”.
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Paul Schmiedmayer
Postdoctoral Scholar, Bioengineering
Current Research and Scholarly InterestsPaul Schmiedmayer's research applies computer science research to medicine, enabling digital health innovations. These include machine learning applications and deployments, heterogeneous connected devices, health data standards such as FHIR, and software engineering best practices.
He leads the development of the Stanford Spezi framework and ecosystem, enabling the rapid development of digital health innovations. He is a co-instructor of the Building for Digital Health (CS342) course. -
Johanna Schroeder
Postdoctoral Scholar, Chemical Engineering
BioSince July 2023: Postdoc.Mobility Fellow of Swiss National Science Foundation (SNSF)
April 2022 - June 2023: Postdic Fellow of German National Academy of Sciences Leopoldina -
Samya Sen, Ph.D.
Postdoctoral Scholar, Materials Science and Engineering
Current Research and Scholarly InterestsSamya's research interests are primarily soft materials and complex fluids. He uses experimental techniques of fundamental rheology in conjunction with non-Newtonian fluid mechanics to model, characterize, design, and understand soft material behavior. The applications of his research range from yield-stress fluid design in consumer products, industrial materials, and wildfire suppression. His current research projects as a postdoctoral researcher with Prof. Appel is in the rheological of novel hydrogels for biomedical applications, including improved drug delivery. His focus is on developing transient, stimuli-responsive materials with tunable mechanical and mass transport properties which can be tuned in situ and in vitro for controlled drug-release profiles. He also works on mathematical modeling of mass transport, structural evolution, and constitutive behavior of polymeric and colloidal materials in the context of soft biomaterials.
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Viktoryia Shautsova
Postdoctoral Scholar, Materials Science and Engineering
BioViktoryia is a Stanford Science Fellow with a background in physics, nanotechnology, and material science. Viktoryia received her bachelor’s degree in computer science from Belarus State University and a PhD in physics from Imperial College London, followed by a postdoc in material science at Oxford University. Viktoryia's passion lies in building the next generation of bioelectronic devices that interface with the brain and heart. At Stanford, Viktoryia is part of GLAM and Wu Tsai Neuroscience Institute, working with Nick Melosh, Bianxiao Cui and Mark Brongersma to develop novel nanoscale devices for label-free optical sensing of bioelectrical signals produced by neural and cardiac cells and nongenetic optical stimulation of neural activity.
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Patrick Sheehan
Postdoctoral Scholar, Management Science and Engineering
BioPatrick Sheehan a Post-Doctoral scholar in the Work, Technology, and Organizations group at MS&E. He is an ethnographer and economic sociologist who studies work, culture, and technological innovation. His research focuses on elite professional employment as an entryway for understanding cultural transformations to contemporary capitalism. Ongoing projects investigate the puzzling rise of “career coaches” as self-styled “experts” in career management, and an ethnographic study of “hype culture" in Silicon Valley start-ups.
His work has been published in American Journal of Sociology, Annual Review of Sociology, and Work & Occupations, and has received best-paper awards from the American Sociological Associuation sections on Cultural Sociology; Organizations, Occupations, and Work; and Economic Sociology.
Patrick earned a BA from the University of California, Santa Barbara and a PhD from the University of Texas at Austin. -
Weiyan Shi
Postdoctoral Scholar, Computer Science
Current Research and Scholarly InterestsMy research interests are in Natural Language Processing, especially intelligent interactive systems and the following directions:
* Interactive systems specialized in social influence for social good (e.g., persuasive dialogues)
* Privacy-preserving NLP models
* Task-oriented and open-domain dialogue systems
* Intelligible dialogue generation
* Learning through interaction
My research vision is to build a natural interface between human intelligence and machine intelligence via natural conversations, so that all members of society can interact with AI models seamlessly regardless of their backgrounds. -
Nicholas Siemons
Postdoctoral Scholar, Materials Science and Engineering
BioNicholas began his academic career by studying integrated Masters at University College, London. During this time he published his first article, "Multiple exciton generation in nanostructures for advanced photovoltaic cells" - a review of how to produce photovoltaics with greater than 100% internal efficiencies. Following this Nicholas began research into solar voltaics and organic batteries in the group of Prof. Jenny Nelson at Imperial College, London. During this time Nicholas developed his keen interest in how to relate the chemical design of polymers to their ability to function as battery electrode materials. To achieve this goal, Nicholas applies atomistic simulation methods to such polymer systems, and relates the simulated findings to experimental results, bridging the gap between chemistry and device properties. As well as linking molecular chemical design to device performance, Nicholas applies novel simulation and analysis methodologies to study these systems, including Molecular Dynamics, Density Functional Theory, Molecular Metadynamics and Network Analysis.
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Mohit Singhala
Postdoctoral Scholar, Bioengineering
BioMohit is the Global Innovation Fellow at Impact1, Stanford Biodesign. He comes from India, where he completed his undergraduate training in mechanical engineering.
Mohit leads research at Stanford and Johns Hopkins that leverages robotics principles to understand and address complex systems-level healthcare needs of underserved populations. He is currently developing Maitri, a system that aims to bring the promise of digital health & AI to prenatal screening of mothers seeking care at community health centers of India- combining implementation science and design thinking.
He completed his PhD at Johns Hopkins, where he studied haptics and medical robotics. He built custom electromechanical testbeds to quantitatively assess how humans perceive touch. His work on haptic perception is being used to develop novel therapies for children on the spectrum for Autism and for quantitative measurement of pain in patients suffering from peripheral neuropathy.
He concurrently served as an innovator-in-residence at Johns Hopkins CBID, where he previously earned his MSE in bioengineering innovation and design. He has invented several patented and patent-pending medical devices, performed primary ethnography in multiple countries, and received funding from organizations such as the Gates Foundation. He continues his global health collaborations in India, Uganda and Zambia, where has invented several medical technologies including a mosquito trap, currently being tested in East Africa to accelerate malaria research through large scale capture of different mosquito species.
Mohit also played a crucial role in Hopkins’ COVID-19 pandemic response, most notably helping devise an emergency dialysate production method that was adopted by multiple healthcare facilities. -
Sandya Subramanian
Postdoctoral Scholar, Bioengineering
Current Research and Scholarly InterestsI would like to focus on platform technology development for at-home monitoring of chronic disease, by studying gut-autonomic nervous system interactions. I am trained as an engineer and computational researcher, and I have experience developing computational algorithms from physiology, collecting data from patients in complex clinical scenarios, and collaborating with diverse clinical and regulatory teams. I am developing expertise in hardware-software interfacing and bioelectronics.