Off-resonant coherent electron transport over three nanometers in multi-heme protein bioelectronic junctions
Autor: | Futera, Zdenek, Ide, Ichiro, Kayser, Ben, Garg, Kavita, Jiang, Xiuyun, van Wonderen, Jessica H., Butt, Julea N., Ishii, Hisao, Pecht, Israel, Sheves, Mordechai, Cahen, David, Blumberger, Jochen |
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Rok vydání: | 2020 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | Multi-heme cytochromes (MHC) are fascinating proteins used by bacterial organisms to shuttle electrons within and between their cells. When placed in a solid state electronic junction, they support temperature-independent currents over several nanometers that are three orders of magnitude higher compared to other redox proteins of comparable size. To gain microscopic insight into their astonishingly high conductivities, we present herein the first current-voltage calculations of its kind, for a MHC sandwiched between two Au(111) electrodes, complemented by photo-emission spectroscopy experiments. We find that conduction proceeds via off-resonant coherent tunneling mediated by a large number of protein valence-band orbitals that are strongly delocalized over heme and protein residues, effectively "gating" the current between the two electrodes. This picture is profoundly different from the dominant electron hopping mechanism supported by the same protein in aqueous solution. Our results imply that current output in MHC junctions could be even further increased in the resonant regime, e.g. by application of a gate voltage, making these proteins extremely interesting for next-generation bionanoelectronic devices. Comment: 18 pages, 5 figures |
Databáze: | arXiv |
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