Sentences with phrase «understand electron transfer»

If we understand electron transfer, we can learn how bacteria controls the carbon cycle,» said Shi.

In this chapter she describes models for oxygen carriers, electron - transfer proteins, rubredoxins, various enzymes and others, and how they might help the chemist to understand better the role of iron in nature.

Dr. El - Naggar has increased our understanding of electron transfer focusing on bacterial nanowires, and is working to develop new nanomaterials and tools for energy conversion.

Being able to explain the reaction mechanism of the solid - liquid interface is critical to underpin its energetics, kinetics, and reactivity and contributes to a new understanding of mass and electron transfer at the interface.

This new information contributes to understanding protein stability and electron transfer between cells and minerals, which is important for applications in synthetic biology such as biofuel production.

These results mark another step toward understanding the cellular mechanisms that enable a bacterial protein - in this case, the cytochrome MtrC - to transfer electrons to minerals in soil, sediment, and subsurface materials.

Spectroscopy & Application of Lasers, Zare / Moerner / +, 6 - 1 Nuclear Hormone Signaling, Chambon / Evans / Jensen, 6 - 1 Bioinorganic Chemistry, Gray / Lippard / Holm / — , 8 - 1 The Field (everything not listed), 10 - 1 Techniques in DNA Synthesis, Caruthers / Hood / +, 10 - 1 Electrochemistry / Electron Transfer, Bard / Hush / Gray / — , 19 - 1 Instrumentation / Techniques in Genomics, Venter / +, 19 - 1 Biological Membrane Vesicles, Rothman / Schekman / +, 19 - 1 Molecular Studies of Gene Recognition, Ptashne, 19 - 1 Organic Electronics, Tang / +, 39 - 1 Polymer Science, Matyjaszewski / Langer / + / — 69 - 1 Solar Cells, Grätzel / +, 74 - 1 Mechanistic Enzymology, Walsh / Stubbe / Koshland / + / — , 74 - 1 Combinatorial Chemistry / DOS, Schreiber / +, 99 - 1 Pigments of Life, Battersby / +, 99 - 1 Development of the Birth Control Pill, Djerassi, 99 - 1 Molecular Modeling and Assorted Applications, Karplus / Houk / Schleyer / Miller / + / — , 99 - 1 Applications of NMR Spectroscopy, Pines / Roberts / McConnell / + / — , 99 - 1 Development of Chemical Biology, Schultz / Schreiber / +, 99 - 1 Self - Assembly, Whitesides / Nuzzo / Stang / — , 149 - 1 Small Regulatory RNA, Ambros / Baulcombe / Ruvkun, 149 - 1 Nanotechnology, Lieber / Whitesides / Alivisatos / Mirkin / Seeman / + / — , 149 - 1 Eukaryotic RNA Polymerases, Roeder, 149 - 1 Contributions to Theoretical Physical Chemistry, Rice / +, 149 - 1 Mechanical Bonds and Applications, Sauvage / Stoddart / +, 149 - 1 Bio - & Organo - catalysis, List / Lerner / Barbas / + / — , 149 - 1 Organic Synthesis, Evans / Danishefsky / Nicolaou / Ley / Trost / Stork / Wender / Kishi / + / — , 199 - 1 Leptin, Coleman / Friedman / Leong, 199 - 1 Fluorocarbons, DuPont / Curran / — , 199 - 1 Understanding of Organic Stereochemistry, Mislow, 199 - 1 Tissue Engineering, Langer / +, 199 - 1 Contributions to Bioorganic Chemistry, Breslow / Eschenmoser / +, 199 - 1 Dendrimers, Frechet / Tomalia / +, 399 - 1 Zeolites, Flanigan, 399 - 1 Molecular Recognition, Dervan / +, 399 - 1 Molecular Machines, Stoddart / Tour / + / — , 399 - 1 Astrochemistry, Oka, 999 - 1

Included with clear directions to teachers and students, as well as clearly articulated objectives, this activity will walk students through their own investigation in which they develop their understanding of various materials» impact on static build up and the transfer of electrons.