Assessing how to transition to sustainable and low carbon energy systems, based on the technologies that can address future energy needs and the decision-making process followed by various agents in the economy. Energy efficiency in optical and wireless access networks. Fabrication of nanoscale materials, and study of their electronic, photonic, electrochemical and catalytic properties. Sequestering CO2 in deep underground formations. Seismic wave propagation in multi-scale heterogeneous reservoirs. Geological carbon storage in sedimentary and magnesium-silicate rocks. Modern computational approaches to electron and photon dynamics. Energy technology assessment. Effects of electron correlation. The future of global oil resources, supply and demand. Design of alternative regulatory and subsidy mechanisms to achieve CO2 reductions. Developing a community-based program for reducing residential energy use, working with Girl Scouts. Systems and controls analysis of power systems with distributed generation. Our scholars work closely with scientists, engineers, and policymakers to develop and analyze economically viable approaches to Economics of CO2 capture by fossil fuel power plants. Energy interests in transportation systems, energy efficiency and education of scientists and non-scientists in energy policy and technology. Matching solar supply with businesses that have price-sensitive demand. Precourt Institute, Steyer-Taylor Center for Energy Policy & Finance, Transportation, Energy Markets, Finance & Subsidies, Management & Innovation. Operational management challenges for some cleantech firms. © Stanford University, Stanford, California 94305. “GCEP was a creativity engine. Tools include nanoparticles, metals, alloys, sulfides, nitrides, carbides, phosphides, oxides, and biomimetic organo-metallic complexes. Energy efficient computing based on architectures, runtime environments and parallel computer systems. Stanford School of Earth, Energy & Environmental Sciences. Impacts on climate of converting land use from food to biofuel crops. Climate benefits of converting biofuel crops from annual plants to perennials. Precourt Institute, Stanford Environmental & Energy Policy Analysis Center, Energy Markets, Finance & Subsidies, Law, Tax & Regulation. Suspension and settling of particles in viscoelastic fluids in hydraulic fracturing to prop open the fractures. The following centers, programs and initiatives are significant strands in the fabric of interdisciplinary energy research at Stanford. Co-evolution of technology and policy on the business case of low-carbon energy solutions. Chemical Engineering, Civil & Environmental Engineering, Water Systems, CO2 Capture, Storage & Conversion, Bioenergy. The long-term behavior of materials, such as those used in radioactive waste disposal. Using control systems to reduce the environmental impact of automobiles. Civil & Environmental Engineering, Stanford Woods Institute for the Environment, Water Systems, Economic Development & Equity. Printable, electrically conductive gel for potential use in energy storage and biofuel cells. Applications include hydrogen and methanol generation through photocatalysis, reduction of methane emissions, PV solar cells, solid oxide fuel cells and batteries. Designer materials and nanoelectronics. How China and the U.S. could deploy solar energy more efficiently if each one played to its economic strengths. Transportation, Batteries & Fuel Cells, Electric Grid, Grid Scale Storage. On Food Security & the Environment, buildings, climate, Finance & Subsidies, Management &.! The proppant particles, typically sand power plants ' ecological benefits including the effects of damage., Grid scale Storage, Photovoltaics, solar Thermal diagnostics to optimize materials for the reversible of... 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