Stanford University
Showing 61-70 of 114 Results
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Mark Patrick McVay
Staff, Stanford Doerr School of Sustainability - Dean's Office
Temp - Non-Exempt, Stanford Doerr School of Sustainability - Dean's OfficeBioMark joined Stanford Energy in January of 2020 to focus on business model innovation supporting energy transformation. He is working with students and faculty throughout Stanford on efforts to create solutions for Carbon Reduction and Sustainability goals in large organizations. He is now working with Doerr School of Sustainability on external relations. Mark has spent his career in energy starting as a nuclear power engineer aboard an aircraft carrier. He most recently helped build and sell the energy analytics firm PowerAdvocate and currently serves on the boards of several energy related small companies. Mark earned an MBA from the Stanford GSB and an MS from the School of Engineering. He has a BS from the US Naval Academy.
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Krish Mehta
MBA, expected graduation 2024
Masters Student in Environment and Resources, admitted Spring 2023BioPassionate about cleantech / climate entrepreneurship. Previously, manager for Model 3 program at Tesla, and Engagement manager at McKinsey's Sustainability practice.
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Cheng Mei
Postdoctoral Scholar, Geophysics
BioI am currently a postdoc scholar at Department of Geophysics. My research covers earthquake mechanics, numerical modeling, and rock friction and deformation.
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Nicholas Melosh
Professor of Materials Science and Engineering
BioThe Melosh group explores how to apply new methods from the semiconductor and self-assembly fields to important problems in biology, materials, and energy. We think about how to rationally design engineered interfaces to enhance communication with biological cells and tissues, or to improve energy conversion and materials synthesis. In particular, we are interested in seamlessly integrating inorganic structures together with biology for improved cell transfection and therapies, and designing new materials, often using diamondoid molecules as building blocks.
My group is very interested in how to design new inorganic structures that will seamless integrate with biological systems to address problems that are not feasible by other means. This involves both fundamental work such as to deeply understand how lipid membranes interact with inorganic surfaces, electrokinetic phenomena in biologically relevant solutions, and applying this knowledge into new device designs. Examples of this include “nanostraw” drug delivery platforms for direct delivery or extraction of material through the cell wall using a biomimetic gap-junction made using nanoscale semiconductor processing techniques. We also engineer materials and structures for neural interfaces and electronics pertinent to highly parallel data acquisition and recording. For instance, we have created inorganic electrodes that mimic the hydrophobic banding of natural transmembrane proteins, allowing them to ‘fuse’ into the cell wall, providing a tight electrical junction for solid-state patch clamping. In addition to significant efforts at engineering surfaces at the molecular level, we also work on ‘bridge’ projects that span between engineering and biological/clinical needs. My long history with nano- and microfabrication techniques and their interactions with biological constructs provide the skills necessary to fabricate and analyze new bio-electronic systems.
Research Interests:
Bio-inorganic Interface
Molecular materials at interfaces
Self-Assembly and Nucleation and Growth