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Utilizing the dynamic stark shift as a probe for dielectric relaxation in photosynthetic reaction centers during charge separation
Zhi Guo, Su Lin,
Neal Woodbury
Innovations in Medicine, Center for (IM)
Molecular Sciences, School of (SMS)
Single Molecule Biophysics, Center for (SMB)
Bioenergy and Photosynthesis, Center for (C&BP)
Biodesign Institute
Physics
Life Sciences, School of (SOLS)
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
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Chemical Compounds
Dielectric Relaxation
71%
Bacteriochlorophyll
62%
Charge Separation
56%
Electron Transfer
39%
Probe
35%
Dielectric Constant
22%
Strength
15%
Quinone
15%
Cofactor
15%
Dielectric Material
14%
Time
11%
Monomer
9%
Environment
9%
Aspartic Acid
8%
Tyrosine
7%
Electric Field
7%
Ground State
6%
Protein
3%
Engineering & Materials Science
Dielectric relaxation
100%
Electrons
57%
Quinone
30%
Permittivity
24%
Monomers
19%
Ground state
12%
Pigments
10%
Electric fields
7%
Proteins
7%
Acids
7%
Temperature
6%
Monitoring
4%
Physics & Astronomy
polarization (charge separation)
66%
electron transfer
40%
shift
34%
probes
34%
quinones
15%
field strength
15%
permittivity
11%
monomers
10%
aspartic acid
9%
tyrosine
8%
kinetics
6%
pigments
6%
proteins
4%
ground state
3%
electric fields
3%
decay
3%
temperature
1%