School of Engineering
Showing 351-400 of 542 Results
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Srabanti Chowdhury
Associate Professor of Electrical Engineering, Senior Fellow at the Precourt Institute for Energy and Associate Professor, by courtesy, of Materials Science and Engineering
Current Research and Scholarly InterestsWide bandap materials & devices for RF, Power and energy efficient electronics
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Richard Christensen
Professor (Research) of Aeronautics and Astronautics and of Mechanical Engineering, Emeritus
BioProfessor Christensen's research is concerned with the mechanics of materials. The behavior of polymers and polymeric fiber composites are areas of specialization. Of particular interest is the field of micro-mechanics that focuses on materials' functionality at intermediate-length scales between atomic and the usual macro scale. Applicable techniques involve the methods of homogenization for all types of composite materials. The intended outcomes of his research are useful means of characterizing the yielding, damage accumulation, and failure behavior of modern materials. A related website has been developed to provide critical evaluations for the mathematical failure criteria used with the various classes of engineering materials. Most of these materials types are employed in aerospace structures and products.
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Paul Danzhe Chu
Graduate Visiting Researcher Student, Electrical Engineering
Stanford Student Employee, Medicine - Med/Gastroenterology and HepatologyBioPaul is currently a Visiting Student Researcher at Stanford University in the Electrical Engineering Department Lab, focusing on Deep Learning and AI Optimization since September 2023.
His academic and research interests lie primarily in Natural Language Processing (NLP), Data Analysis Visualization, and he is keen on diving deeper into Large Language Models (LLMs) in the future.
His work at Stanford involves collaborating with Prof. Mert Pilanci lab members to explore innovative solutions in AI, particularly in NLP and AI Optimization. By engaging in research at Stanford, Paul aspires to contribute to the advancement of AI technologies, in understanding and optimizing AI systems for practical applications.
Prior to joining Stanford, His journey in engineering began in France, where he embarked on a preparatory class in 2019, before securing his "Diplôme d'Ingénieur" from ISEP in Paris, in 2024. -
Arisa Sugiyama Chue
Student Employee, Computer Science
Undergraduate, Computer Science
Undergraduate, Graduate School of EducationBioContact:
achue [at] cs [dot] stanford [dot] edu -
William Chueh
Associate Professor of Materials Science and Engineering, of Energy Science and Engineering, of Photon Science, and Senior Fellow at the Precourt Institute for Energy
BioThe availability of low-cost but intermittent renewable electricity (e.g., derived from solar and wind) underscores the grand challenge to store and dispatch energy so that it is available when and where it is needed. Redox-active materials promise the efficient transformation between electrical, chemical, and thermal energy, and are at the heart of carbon-neutral energy cycles. Understanding design rules that govern materials chemistry and architecture holds the key towards rationally optimizing technologies such as batteries, fuel cells, electrolyzers, and novel thermodynamic cycles. Electrochemical and chemical reactions involved in these technologies span diverse length and time scales, ranging from Ångströms to meters and from picoseconds to years. As such, establishing a unified, predictive framework has been a major challenge. The central question unifying our research is: “can we understand and engineer redox reactions at the levels of electrons, ions, molecules, particles and devices using a bottom-up approach?” Our approach integrates novel synthesis, fabrication, characterization, modeling and analytics to understand molecular pathways and interfacial structure, and to bridge fundamentals to energy storage and conversion technologies by establishing new design rules.