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Energetics of bacterial photosynthesis
David N. Lebard,
Dmitry Matyushov
Physics
Molecular Sciences, School of (SMS)
Research output
:
Contribution to journal
›
Article
›
peer-review
31
Scopus citations
Overview
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Chemical Compounds
Photosynthesis
74%
Electronic Transition
69%
Charge Separation
64%
Reorganization Energy
53%
Band Gap
32%
Charge Transfer
30%
Cooling
19%
Drop
18%
Solvation
18%
Protein
18%
Gibbs Free Energy
16%
Simulation
13%
Electron Particle
11%
Solvent
10%
Time
7%
Engineering & Materials Science
Photosynthesis
100%
Charge transfer
55%
Energy gap
49%
Proteins
40%
Solvation
34%
Temperature
26%
Free energy
26%
Bacteria
24%
Reaction kinetics
24%
Electrons
21%
Chemical activation
19%
Cooling
15%
Computer simulation
11%
Hot Temperature
10%
Physics & Astronomy
photosynthesis
87%
polarization (charge separation)
45%
charge transfer
22%
proteins
20%
electronics
20%
kinetics
15%
solvation
14%
bacteria
14%
induction
11%
reaction kinetics
11%
baths
11%
temperature
11%
free energy
10%
activation
10%
breakdown
10%
slopes
9%
formulations
9%
cooling
8%
shift
7%
energy
7%
electrons
5%
simulation
4%