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Reports: Table of Contents Here you can browse the latest reports on some of the more than 1,300 active grants awarded by the PRF. The reports are organized according to title, institution, principal investigator, and grant type. For Grant Types, click here. Browse by Grant Type and Committee: AC1 B1 G1 GB1 AC2 B2 G2 GB2 AC3 B3 G3 GB3 AC4 B4 G4 GB4 AC5 B5 G5 GB5 AC6 B6 G6 GB6 AC7 B7 G7 GB7 AC8 B8 G8 GB8 AC9 B9 G9 GB9 AC10 B10 G10 GB10 SE UFS G3
42575-G3: Ligand Design and Geometry Control in Electroactive Heterospin Precursors for Magnetic Switching
Claudio Nazari Verani
43766-G3: Production and Anaerobic Oxidation of Methane by Methanogenic Archea
Eduardus C. Duin
44063-G3: Bridging the Gap Between Early and Late-Metal Catalysis: d2 Square-Planar Complexes That Mimic Their d8 Counterparts
Adam Veige
44410-G3: Understanding the Origin of Suicide Inactivation in the Extradiol Dioxygenases
Timothy Machonkin
44525-G3: Single-Metal-Ion-Based Molecular Building Block Approach to the Design and Synthesis of Metal-Organic Assemblies with Extra-Large Cavities
Mohamed Eddaoudi
44691-G3: New Strategies for Incorporating Magnetic Anisotropy into Single-Molecule Magnets
Matthew P. Shores
45086-G3: A Computational Study of the Hydrolysis and Solvation Chemistry of Highly-Charged Metal Cations
Vojislava Torbica-Pophristic
45685-G3: An Electrochemically Controlled Separation of Nitrogen and Sulfur Heterocycles from Crude Petroleum by Reversible Binding to Iron Bis(dithiolene) Complexes
James P. Donahue
46587-G3: Transition-Metal-Mediated Activation of Sulfur Toward C–S Bond Formation
Jan-Uwe Rohde
46939-G3: Toward Understanding Biological Nitrogen Fixation: Direct Electrochemical Studies of Nitrogenase
F. Akif Tezcan
46943-G3: Investigation of O2 Activation with Metallodendrimer Models of Copper Monooxygenases
Shawn Burdette
47013-G3: Molecular Mechanism of Hydrogen-formation in Fe-only Hydrogenases
Nicolai Lehnert
47022-G3: Rhodium-containing Conducting Metallopolymers: Utilizing Electronic Changes on the Polymer Backbone to Remotely Attenuate Metal-ligand Interactions
Bradley J. Holliday |
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