Research Areas & Activities
Analysis Activities
2018-2019
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1. Introduction
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1. Introduction
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2. Research Activities - Progress Reports
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2.1 Hydrogen Production, Distribution and Use
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2.1.1 Introduction to Hydrogen Production, Distribution and Use
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2.1.2 C-H Bonds in Carbon Nanotubes as an Energy Carrier
Anders Nilsson, Bruce Clemens and Hongjie Dai
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2.2 Renewable Energy-Solar
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2.2.1 Introduction to Renewable Energy-Solar
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2.2.2 Self-sorting of Metallic Carbon Nanotubes for High Performance Large Area Low Cost Transparent Electrodes
Michael McGehee
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2.2.3 Self-sorting of Metallic Carbon Nanotubes for High Performance Large Area Low Cost Transparent Electrodes
Zhenan Bao
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2.2.4 Photo-electric Enhancement of Thermionic Emission
Nick Melosh and Zhi-Xun Shen
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2.2.5 Ultra-High Efficiency Thermo-Photovoltaic Cells Using Metallic Photonic Crystals as Intermediate Absorber and Emitter
Shanhui Fan, Peter Peumans, and Paul Braun
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2.2.6 Hot Carrier Solar Cell: Implementation of the Ultimate PV Converter
Gavin Conibeer, Martin Green, Antonio Marti, Antonio Luque, Jean-Francois Guillemoles, and Tim Schmidt
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2.2.7 Molecular Solar Cells
Peter Peumans
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2.2.8 Nanostructured Materials for High-Efficiency Thin Film Solar Cells
Alberto Salleo, Yi Cui, and Peter Peumans
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2.2.9 Lateral Nanoconcentrator Nanowire Multijunction Photovoltaic Cells
H.-S. Philip Wong, Peter Peumans, Mark Brongersma, and Yoshi Nishi
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2.2.10 Plasmonic Photovoltaics
Mark Brongersma, Harry Atwater, and Albert Polman
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2.2.10 Plasmonic Photovoltaics
Harry Atwater
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2.2.11 Artificial Photosynthesis: Membrane Supported Assemblies That Use Sunlight to Split Water
Nate Lewis, Harry Gray, and Harry Atwater
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2.2.12 Advanced Materials and Devices for Low Cost and High Performance Organic Photovoltaic Cells
Zhenan Bao and Michael McGehee
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2.3 Renewable Energy-Biomass
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2.3.1 Introduction to Renewable Energy-Biomass
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2.3.2 Assembly of a Lignin Modification Toolbox
Clint Chapple and Alan Friedman
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2.3.3 Novel Mutants Optimized for Lignin, Growth and Biofuel Production via Re-Mutagenesis
Claire Halpin and Gordon Simpson
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2.3.4 Efficient Biomass Conversion: Delineating the Best Lignin Monomer Substitutes
John Ralph, Xuejun Pan, and Sara Patterson
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2.3.5 Towards New Degradable Lignin Types
Wout Boerjan
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2.3.6 Biomass Energy: The Climate-Protective Domain
Christopher Field, Rosamond Lee Naylor, and Gregory Asner
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2.3.7 Microbial Synthesis of Biodiesel
Chaitan Khosla
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2.4 CO2 Capture & Separation
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2.4.1 Introduction to CO2 Capture and Separation
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2.4.2 Advanced CO2/H2 Separation and Storage Nano-Porous Materials Incorporating Active Functional Agents
Yuichi Fujioka, Shingo Kazama, and Katsunori Yogo
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2.5 CO2 Storage
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2.5.1 Introduction to CO2 Storage
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2.5.2 Residual Trapping of Carbon Dioxide
Sally Benson
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2.5.3 Geologic Storage of CO2 in Coal Beds
Jerry Harris, Anthony Kovscek, Franklin Orr, and Mark Zoback
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2.6 Advanced Combustion
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2.6.1 Introduction to Advanced Combustion
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2.6.2 Development of Low-Energy-Loss, High-Efficiency Chemical Engines
Christopher Edwards
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2.7 Advanced Coal
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2.7.1 Introduction to Advanced Coal
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2.7.2 Coal Energy Conversion with Aquifer-Based Carbon Sequestration: An Approach to Electric Power Generation with Zero Matter Release to the Atmosphere
Reginald Mitchell
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2.8 Advanced Materials and Catalysts
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2.8.1 Introduction to Advanced Materials and Catalysts
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2.8.2 The Electron Economy: Oxidation Catalysis for Energy Management
Robert Waymouth, Christopher Chidsey and Daniel Stack
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2.8.3 Metal Oxide Nanotubes and Photo-Excitation Effects: New Approaches for Low Temperature Solid Oxide Fuel Cells to Enable Low GWG-Emission Transportation
Paul McIntyre
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2.8.3 Metal Oxide Nanotubes and Photo-Excitation Effects: New Approaches for Low Temperature Solid Oxide Fuel Cells to Enable Low GWG-Emission Transportation
Shriram Ramanathan
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2.8.4 Nanoscale Architectural Engineering for High-Performance Solid oxide Fuel Cells
David Goodwin and Sosina Haile
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2.9 Advanced Transportation
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2.9.1 Introduction to Advanced Transportation
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2.9.2 Advanced Li-ion Batteries based on the use of renewable ORGanic electrodes (ALIBORG)
Jean-Marie Tarascon
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2.9.3 A Quantum Leap Forward for Li-Ion Battery Cathodes
Josh Thomas
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2.9.4 Nanowire Lithium-Ion Batteries as Electrochemical Energy Storage for Electric Vehicles
Yi Cui and Fritz Prinz
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3. Scoping Research Activities
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3.1 Introduction to Scoping Research Activities
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3.2 Development of an Immobilized Enzyme System for Lignocellulosic Biomass Saccharification
Richard Zare
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3.3 Electrocatalytic Water Oxidation to Dioxygen in Molecular PdII/IV Coordination Environment
Dmitry Yandulov
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3.4 Geological Sequestration of CO2 – An Exploratory Study of the Mechanisms and Kinetics of CO2 Reaction with Mg-Silicates
Gordon Brown, Dennis K. Bird, Kate Maher and Wendy Mao
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3.5 Multijunction Nanowire Solar Cells for Inexpensive and Highly Efficient Photoelectricity: Enabling Methods
Paul McIntyre
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3.6 Nanostructured MoS2 and WS2 for the Solar Production of Hydrogen
Thomas Jaramillo
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3.7 Spectroscopic Characterization of Multi-Exciton Generation Efficiency in Nano-Structured Materials
Kelly Gaffney, Yi Cui and Mike McGehee
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4. Research Activities -- Final Reports
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4.1 Introduction
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4.2 Hydrogen Production, Distribution and Use
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4.2.1 Direct Solar Biohydrogen: Part II
James Swartz
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4.3 Renewable Energy-Solar
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4.3.1 Inorganic Nanocomposite Solar Cells by Atomic Layer Deposition
Stacey Bent, James Harris, and Michael McGehee
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4.3.2 Nanostructured Metal-Organic Solar Cells
Mark Brongersma, Peter Peumans, and Shanhui Fan
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4.3.3 Nanostructured Silicon-Based Tandem Solar Cells
Martin Green and Gavin Conibeer
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4.4 Renewable Energy-Biomass
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4.4.1 Directed Evolution and Genomic Analysis of Novel Yeast Species for More Efficient Biomass Conversion.
Gavin Sherlock and Frank Rosenzweig
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4.5 CO2 Capture & Separation
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4.5.1 Advanced Membrane Reactors in Energy Systems: A Carbon-Free Conversion of Fossil Fuels
Daan Jansen, Ruud van den Brink, Jan Wilco Dijkstra, Wim Haije, Joop Schoonman, and Cor Peters
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4.5.2 Sub-Nano Structure Controlled Materials - Development of Innovative Gas Separation Membranes
Yuichi Fujioka
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4.6 CO2 Storage
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4.6.1 A Numerical Simulation Framework for the Design, Management and Optimization of CO2 Sequestration in Subsurface Formations
Hamdi, Tchelepi, Louis Durlofsky, Khalid Aziz, and Patrick Jenny
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4.7 Advanced Combustion
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4.7.1 Optimization of the Molecular Structure of Low-Greenhouse-Gas- Emission Synthetic Oxygenated Fuels for Improved Combustion and Pollutant Emission Characteristics of Diesel Engines
Craig Bowman, David Golden, Ronald Hanson, Heinz Pitsch, and Ripudaman Malhotra
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4.8 Advanced Materials and Catalysts
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4.8.1 Efficient Interconversion of Chemical and Electrical Energy: Electrocatalysis with Discrete Transition Metal Complexes
Christopher Chidsey, Daniel Stack, and Robert Waymouth
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4.9 Integrated Assessment of Technology Options
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4.9.1 Technology Potential of Biofuels: Feasibility Study
Christopher Field and Rosamond Lee Naylor
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