Stanford University, Stanford, CA

 
 

Materials Sciences and Engineering Division (BES) 

  • Mechanical Properties of Materials with Nanometer Scale Microstructures

  • Ultra-Low Temperature Properties of Amorphous and Glassy Materials

  • Spin Properties of Transition-Metallorganic Self-Assembled Molecules

  • Properties of Locally Charge Ordered Conductors

Chemical Sciences, Geosciences, & Biosciences Division (BES) 

  • Geochemical Controls on Nuclear Magnetic Resonance Measurements

  • Kinetics and Spectroscopy of Combustion Gases at High Temperatures

  • Porous Rock with Fluid: Impact of Heterogeneity on Reservoir Transport

  • Liquid and Chemical Dynamics in Nanoscopic Environments

  • Biochemical Characterization of the Interaction between Xanthomonas Type III Effector XopN and a Tomato

  • Framework for Constitutive Branching in Porous Rocks Undergoing Brittle Faulting

  • Manipulating Signaling in Stomatal Development

Office of High Energy Physics (HEP)

  • Stanford Non-Accelerator High Energy Physics Program

  • Development of High-Gradient Extended Dielectric Based Laser-Driven Particle

Mathematical, Information, & Computational Sciences Division (ASCR) 

  • Simulations of Turbulent Flows with Strong Shocks

  • Multiscale Analysis and Computation for Flows in Heterogeneous Media

Medical Sciences Division (BER)  

  • Global Characterization of Genetic Regulatory Circuitry Controlling Adaptive Metabolic Pathways

  • Production of High-Quality Finished Human Genomic Sequence

  • Dynamic Spatial Organization of Multi-Protein Complexes Controlling Microbial Polar Organization

Climate Change Research Division (BER) 

  • Iron Fertilization of the Southern Ocean: Regional Simulation and Analysis of C-Sequestration in the Ross Sea

  • Photosynthetic Characteristics, Carbon Metabolism, and Nutrient Requirements

  • Organic Matter Composition, Recycling Susceptibility, and the Effectiveness of the Biological Pump - An Evaluation

Environmental Remediation Sciences Division (BER)  

  • Elucidating Bioreductive Transformations within Physically Complex Media:  Impact on the Fate and Transport of Uranium and Chromium

  • Molecular Mechanisms of Uranium Reduction by Clostridia and its Manipulation

  • Quantification of Hydrological, Geochemical, and Mineralogical Processes Governing the Fate

  • Microscopic Controls on the Description/Dissolution of Sorbed U(VI)

 

Research Division (FES) 

  • High Density Magnetized Microdischarge Plasmas

 

*Total Amount Funded by the Office of Science for FY06 ($ in thousands): $15,709