Skip to main navigation
Skip to search
Skip to main content
Technical University of Munich Home
Help & FAQ
Link opens in a new tab
English
Deutsch
Search content at Technical University of Munich
Home
Profiles
Research units
Projects
Research output
Equipment
Prizes
Activities
Press/Media
Electron tunneling through iron and copper proteins
Jay R. Winkler
, Alexander R. Dunn
, Corinna R. Hess
, Harry B. Gray
Beckman Institute
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
›
peer-review
12
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Electron tunneling through iron and copper proteins'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Transition State
100%
Electron Transfer
100%
Electron Tunneling
100%
IRP1
100%
Copper-binding Protein
100%
Ferrous Ion
75%
Ferric Ion
75%
Electron Exchange
75%
Electronic Coupling
50%
Electron Transfer Reaction
50%
Redox Center
50%
Distance Decay
50%
Reaction Driving Force
50%
Nuclear Reorganization
50%
Hydrocarbons
25%
Van Der Waals Interaction
25%
Via Hole
25%
Solvation
25%
Long Distance
25%
Coupling Strength
25%
Biological Activity
25%
Polypeptide
25%
Non-adiabatic
25%
Electron Transfer Mechanism
25%
Electronic Interaction
25%
Reaction Coordinate
25%
Adiabatic Limit
25%
Decay Constant
25%
Electron Transfer Rate
25%
Nuclear Reactions
25%
Semiclassical Theory
25%
Potential Barrier
25%
Fixed-distance
25%
Photosynthetic Machinery
25%
Electron Flow
25%
Changes in Structures
25%
Electron States
25%
Decay Factor
25%
Electronic Coupling Matrix Element
25%
T-reaction
25%
Copper Redox
25%
D-A Interaction
25%
Fixed Orientation
25%
Iron Redox
25%
Superexchange Coupling
25%
Hole State
25%
Key Experiments
25%
Engineering
Driving Force
100%
Tunnel Construction
100%
Iron
100%
electron transfer reactions
66%
Microsecond
33%
Transfer Process
33%
Matrix Element
33%
Coupling Matrix
33%
Millisecond
33%
Constant Time
33%
Reactant
33%
Coupling Strength
33%
Bioactivity
33%
Tunnel
33%
Chemistry
Copper Protein
100%
Electron Transport
100%
Transition State
57%
electronics
57%
Electron Transfer
42%
Donor
14%
Solvation
14%
Transfer Process
14%
Bioactivity
14%
Potential Barrier
14%
Semiclassical Theory
14%
Polypeptide
14%
Material Science
Electron Transfer
100%
Copper Protein
100%
Solvation
11%
Transfer Process
11%