Tunneling explains efficient electron transport via protein junctions (original) (raw)
Proteins as Electronic Materials: Electron Transport through Solid-State Protein Monolayer Junctions
Israel Pecht
Journal of the American Chemical Society, 2010
View PDFchevron_right
Solid-State Electron Transport via the Protein Azurin is Temperature-Independent Down to 4 K
Jerry Fereiro
The Journal of Physical Chemistry Letters, 2019
View PDFchevron_right
Insights into Solid-State Electron Transport through Proteins from Inelastic Tunneling Spectroscopy: The Case of Azurin
Israel Pecht
ACS Nano, 2015
View PDFchevron_right
Recent Advances in Understanding the Electron Transport Through Metal-Azurin-Metal Junctions
Linda A . Zotti
Frontiers in Physics
View PDFchevron_right
Electron Transfer Proteins as Electronic Conductors: Significance of the Metal and Its Binding Site in the Blue Cu Protein, Azurin
Israel Pecht
Advanced Science, 2015
View PDFchevron_right
Fundamental signatures of short-and long-range electron transfer for the blue copper protein azurin at Au/SAM junctions
Rudi Van Eldik
Proceedings of the …, 2010
View PDFchevron_right
Coherent Electron Transport across a 3 nm Bioelectronic Junction Made of Multi-Heme Proteins
Jessica Wonderen
The Journal of Physical Chemistry Letters, 2020
View PDFchevron_right
Protein Binding and Orientation Matter: Bias-Induced Conductance Switching in a Mutated Azurin Junction
Jerry Fereiro
View PDFchevron_right
The Role of Metal Ions in the Electron Transport through Azurin-Based Junctions
Linda A . Zotti
Applied Sciences, 2021
View PDFchevron_right
What Can We Learn from Protein-Based Electron Transport Junctions?
Israel Pecht
The Journal of Physical Chemistry Letters, 2021
View PDFchevron_right
Off-resonant coherent electron transport over three nanometers in multi-heme protein bioelectronic junctions
Jessica Wonderen
arXiv: Biological Physics, 2020
View PDFchevron_right
Long-range protein electron transfer observed at the single-molecule level: In situ mapping of redox-gated tunneling resonance
Qijin Chi
Proceedings of the National Academy of Sciences, 2005
View PDFchevron_right
Marked changes in electron transport through the blue copper protein azurin in the solid state upon deuteration
Israel Pecht
Proceedings of the National Academy of Sciences, 2012
View PDFchevron_right
Electron tunneling in biological molecules
Neil Farrow
Pure and Applied Chemistry, 1999
View PDFchevron_right
Bioengineering a Single-Protein Junction
Maria Camila Diaz Ortega
Journal of the American Chemical Society, 2017
View PDFchevron_right
Temperature and Force Dependence of Nanoscale Electron Transport via the Cu Protein Azurin
S. Cohen, D. Cahen
ACS Nano, 2012
View PDFchevron_right
Temperature and force dependence of electron transport via the copper protein azurin: conductive probe atomic force microscopy measurements
D. Cahen
2012
View PDFchevron_right
Charge Transport Phenomena in Peptide Molecular Junctions
Lance Liotta
View PDFchevron_right
Tunneling matrix element in Ru-modified blue copper proteins: pruning the protein in search of electron transfer pathways
Alexei Stuchebrukhov
Inorganica Chimica Acta, 1996
View PDFchevron_right
Protein Electronics: Chemical Modulation of Contacts Control Energy Level Alignment in Gold-Azurin-Gold Junctions
Jerry Fereiro
Journal of the American Chemical Society, 2018
View PDFchevron_right
Switching of the mechanism of charge transport induced by phase transitions in tunnel junctions with large biomolecular cages
senthil kumar karuppannan
Journal of Materials Chemistry C, 2021
View PDFchevron_right
Solid-State Protein Junctions: Cross-Laboratory Study Shows Preservation of Mechanism at Varying Electronic Coupling
senthil kumar karuppannan
iScience, 2020
View PDFchevron_right
Solid-state electron transport via cytochrome c depends on electronic coupling to electrodes and across the protein
Dmitry Dolgikh
Proceedings of the National Academy of Sciences, 2014
View PDFchevron_right
Charge transport in purple membrane monolayers: A sequential tunneling approach
eleonora alfinito
Physical Review E, 2011
View PDFchevron_right
Long-range interfacial electron transfer of metalloproteins based on molecular wiring assemblies
Qijin Chi
Faraday Discussions, 2006
View PDFchevron_right
Charge transport in disordered films of non-redox proteins
Alessandro Bramanti
View PDFchevron_right
Ecient Electron Hopping Transport through Azurin-Based Junctions
Linda A . Zotti
J Phys Chem Lett, 2023
View PDFchevron_right
Transistor-like Behavior of Single Metalloprotein Junctions
Ismael Diez Perez
Nano letters, 2011
View PDFchevron_right
Electronic Transport via Proteins
Israel Pecht
Advanced Materials, 2014
View PDFchevron_right
Electron tunnelling through azurin is mediated by the active site Cu ion
Paolo Facci
Chemical Physics Letters, 2003
View PDFchevron_right
Electric charge transport in the symmetric metal–enzyme junctions affected by biochemical interaction
Rolandas Meskys, J. Razumiene
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2004
View PDFchevron_right
Electron Tunneling in Proteins: Implementation of ZINDO Model for Tunneling Currents Calculations
Alexei Stuchebrukhov
The Journal of Physical Chemistry B, 2003
View PDFchevron_right
Electronic Conductance Resonance in Non-Redox-Active Proteins
Weisi Song
Journal of the American Chemical Society, 2020
View PDFchevron_right