Single-molecular protein-based bioelectronics via electronic transport: fundamentals, devices and applications
Biomolecular electronics is a rapidly growing multidisciplinary field that combines biology,
nanoscience, and engineering to bridge the two important fields of life sciences and …
nanoscience, and engineering to bridge the two important fields of life sciences and …
Charge transport at the protein–electrode interface in the emerging field of BioMolecular Electronics
The emerging field of BioMolecular Electronics aims to unveil the charge transport
characteristics of biomolecules with two primary outcomes envisioned. The first is to use …
characteristics of biomolecules with two primary outcomes envisioned. The first is to use …
Protein bioelectronics: A review of what we do and do not know
We review the status of protein-based molecular electronics. First, we define and discuss
fundamental concepts of electron transfer and transport in and across proteins and …
fundamental concepts of electron transfer and transport in and across proteins and …
Coherent electron transport across a 3 nm bioelectronic junction made of multi-heme proteins
Multi-heme cytochromes (MHCs) are fascinating proteins used by bacterial organisms to
shuttle electrons within, between, and out of their cells. When placed in solid-state electronic …
shuttle electrons within, between, and out of their cells. When placed in solid-state electronic …
Electronic transport via proteins
A central vision in molecular electronics is the creation of devices with functional molecular
components that may provide unique properties. Proteins are attractive candidates for this …
components that may provide unique properties. Proteins are attractive candidates for this …
[HTML][HTML] Solid-state protein junctions: Cross-laboratory study shows preservation of mechanism at varying electronic coupling
Successful integration of proteins in solid-state electronics requires contacting them in a non-
invasive fashion, with a solid conducting surface for immobilization as one such contact. The …
invasive fashion, with a solid conducting surface for immobilization as one such contact. The …
Molecular bioelectronics
JJ Davis, DA Morgan, CL Wrathmell… - Journal of Materials …, 2005 - pubs.rsc.org
Recent work by a number of groups has highlighted the emerging potential associated with
the marriage of nanoscale electronics and biological structure. Many biological …
the marriage of nanoscale electronics and biological structure. Many biological …
Measuring conductance switching in single proteins using quantum tunneling
Interpreting the electrical signatures of single proteins in electronic junctions has facilitated a
better understanding of the intrinsic properties of proteins that are fundamental to chemical …
better understanding of the intrinsic properties of proteins that are fundamental to chemical …
A protein transistor made of an antibody molecule and two gold nanoparticles
YS Chen, MY Hong, GS Huang - Nature nanotechnology, 2012 - nature.com
A major challenge in molecular electronics is to attach electrodes to single molecules in a
reproducible manner to make molecular junctions that can be operated as transistors …
reproducible manner to make molecular junctions that can be operated as transistors …
Review peptides and proteins wired into the electrical circuits: An SPM‐based approach
S Sek - Peptide Science, 2013 - Wiley Online Library
Abstract Development of molecular scale electronics stimulates the search for new
functional materials and compounds. One of the promising directions of further growth within …
functional materials and compounds. One of the promising directions of further growth within …