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Investigators in Electrocatalysis
Stacey Bent Email | Bio | Lab
Department Affiliation: Chemical Engineering, Stanford University
Secondary Affiliation: Materials Science & Engineering, Chemistry, Electrical Engineering, Ophthalmology, Stanford University
Area of Study: Semiconductor Processing and Reactivity, Surface Science, Materials Chemistry
GCEP Project:

Sustainable Fuel Production from CO2 and CO: Higher Alcohol Synthesis on Transition Metal Catalysts

Inorganic Nanocomposite Solar Cells by ALD


Mark Brongersma Email | Bio | Lab
Department Affiliation: Materials Science and Engineering, Stanford University
Area of Study: Optical properties of metallic and semiconductor nanostructures
GCEP Projects:

Solar Thermophotovoltaics: Improving the Efficiencies of Emitters and Narrow Band Gap Photovoltaic Cells
Nanostructures for Light Trapping in High-efficiency, Low-cost Silicon Solar Cells
High-Efficiency Thin Film Solar Cells Using Nanoscale Light Management
Plasmonic Photovoltaics
Lateral Nanoconcentrator Nanowire Multijunction Photovoltaic Cells
Nanostructured Metal-Organic Composite Solar Cells


Christopher Chidsey Email | Bio
Department Affiliation: Chemistry, Stanford University
Area of Study: Interfacial Chemistry, Electrochemistry, Electrocatalysis, Nanoelectronics and Molecular Electron Transfer
GCEP Projects: Reducing Carbon Dioxide to Oxalic Acid Using Copper-Based Electrocatalysts
Novel Contacts for Efficient Coupling of Photovoltaics and Catalysts
Electrohydrogenation: Enabling Science for Renewable Fuels
The Electron Economy: Oxidation Catalysis for Energy Management
Electrocatalysis with Discrete Transition Metal Complexes

Yi Cui Email | Bio | Lab
Department Affiliation: Materials Science and Engineering, Stanford University
Area of Study: Nanowires and Nanocrystals for Energy Science, Nanoelectornics and Biosensing
GCEP Projects: High-Efficiency Thin Film Solar Cells Using Nanoscale Light Management
Safe, Inexpensive, and Very High Power Batteries For Use To Reduce Short Term Transients on the Electric Grid
Nanostructured Materials for High-Efficiency Thin Film Solar Cells
Battery Electrodes with Nanowire Architectures
Exploratory Project - Nanowire-Nanocrystal Multiexciton Solar Cells
Exploratory Project - Spectroscopic Characterization of Multi-Exciton Generation Efficiency in Nano-Structured Materials
Exploratory Project - Manufacturable Nanostructured Solar Cells with Efficient Light Trapping and Charge Carrier Collection
Electrochemical Tuning of Electronic Structures for Highly Active Electrocatalysts

Shanhui Fan Email | Bio | Lab
Department Affiliation: Electrical Engineering, Stanford University
GCEP Projects:

Solar Thermophotovoltaics: Improving the Efficiencies of Emitters and Narrow Band Gap Photovoltaic Cells
Nighttime Radiative Cooling: Harvesting the Darkness of the Universe
High-Efficiency Thin Film Solar Cells Using Nanoscale Light Management
Exploratory Project - Safe Wireless Power Transfer to Moving Vehicles
Ultra-High Efficiency Thermophotovoltaic Solar Cells Using Metallic Photonic Crystals as Intermediate Absorber and Emitter
Nanostructured Metal-Organic Composite Solar Cells
Exploratory Project - Wireless Power Transfer to Moving Vehicles.


James Harris Email | Bio | Lab
Department Affiliation: Electrical Engineering - Solid State Photonics Laboratory, Stanford University
Area of Study: Molecular Beam Epitaxy, Nanofabrication, Optoelectronics, Non-linear Optics, Single Electron Devices, Quantum Computing
GCEP Project:

Solar Thermophotovoltaics: Improving the Efficiencies of Emitters and Narrow Band Gap Photovoltaic Cells
High-Efficiency Thin Film Solar Cells Using Nanoscale Light Management
Inorganic Nanocomposite Solar Cells by ALD


Harold Hwang Email | Lab
Department Affiliation: Applied Physics - Stanford University, Photon Science - SLAC
GCEP Projects: Exploratory Project - Solar Water-Splitting Catalysis
Electrochemical Tuning of Electronic Structures for Highly Active Electrocatalysts

Thomas Jaramillo Email | Bio
Department Affiliation: Chemical Engineering
GCEP Project:

Sustainable Fuel Production from CO2 and CO: Higher Alcohol Synthesis on Transition Metal Catalysts

Designing Metal Catalysts for Electrochemical Conversion of CO2 and CO to Fuels and Chemicals
Nature-Inspired Solid-State Electrocatalysts: The Oxidation of Water and the Reduction of CO2 to Fuels
Exploratory Project - Nanostructured MoS2 and WS2 for the Solar Production of Hydrogen


Matthew Kanan Email | Lab
Department Affiliation: Department of Chemistry, Stanford University
Area of Study: Organic, Inorganic
GCEP Projects: Exploratory Project - Electrochemical Dinitrogen Fixation
Nanostructured Copper Electrodes for Energy-efficient Conversion of CO2 to Fuel

Anders R. Nilsson Email | Bio | Lab
Department Affiliation: Stanford Synchrotron Radiation Laboratory, SLAC
Secondary Affiliation: Geological and Environmental Sciences
GCEP Projects:

Sustainable Fuel Production from CO2 and CO: Higher Alcohol Synthesis on Transition Metal Catalysts

Designing Metal Catalysts for Electrochemical Conversion of CO2 and CO to Fuels and Chemicals
C-H Bonds in Carbon Nanotubes as an Energy Carrier
Nanomaterials Engineering for Hydrogen Storage


Jens Norskov Email | Bio | Lab
Department Affiliation: Chemical Engineering, Center for Interface Science and Catalysis (CISC), SLAC
Secondary Affiliation: Atmosphere / Energy, Photon Science (SLAC)
Area of Study: Photon Science
GCEP Projects:

Sustainable Fuel Production from CO2 and CO: Higher Alcohol Synthesis on Transition Metal Catalysts

Designing Metal Catalysts for Electrochemical Conversion of CO2 and CO to Fuels and Chemicals
Using Simulations to Discover New Materials with Energy Conversion Applications
Nature-Inspired Solid-State Electrocatalysts: The Oxidation of Water and the Reduction of CO2 to Fuels


Daniel Stack Email | Bio
Department Affiliation: Chemistry, Stanford University
Area of Study: Bio-Inspired Oxidation Catalysis
GCEP Projects: Reducing Carbon Dioxide to Oxalic Acid Using Copper-Based Electrocatalysts
Carbon-based Sorbents for Selective CO2 Capture
The Electron Economy: Oxidation Catalysis for Energy Management
Electrocatalysis with Discrete Transition Metal Complexes

Robert Waymouth Email | Bio | Lab
Department Affiliation: Chemistry, Stanford University
Secondary Affiliation: Chemical Engineering, Stanford University
Area of Study: Transition Metal Catalysis for Olefin Polymerization and Hydrocarbon Oxidation
GCEP Projects:

Electrohydrogenation: Enabling Science for Renewable Fuels
The Electron Economy: Oxidation Catalysis for Energy Management
Electrocatalysis with Discrete Transition Metal Complexes

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