Solid-state electrical applications of protein and peptide based nanomaterials
The field of organic electronics continues to be driven by new charge-transporting materials
that are typically processed from toxic organic solvents incompatible with biological …
that are typically processed from toxic organic solvents incompatible with biological …
Electronics of peptide-and protein-based biomaterials
Biologically inspired peptide-and protein-based materials are at the forefront of organic
bioelectronics research due to their inherent conduction properties and excellent …
bioelectronics research due to their inherent conduction properties and excellent …
Rational Design of Bio‐Inspired Peptide Electronic Materials toward Bionanotechnology: Strategies and Applications
J Zhao, Q Liu, X Tong, Y Wang… - Advanced Functional …, 2024 - Wiley Online Library
Biologically inspired peptide‐based materials, as novel charge transport materials, have
gained increasing interest in bioelectronics due to their remarkable electrical properties and …
gained increasing interest in bioelectronics due to their remarkable electrical properties and …
Demonstration of hole transport and voltage equilibration in self-assembled π-conjugated peptide nanostructures using field-effect transistor architectures
π-Conjugated peptide materials are attractive for bioelectronics due to their unique
photophysical characteristics, biofunctional interfaces, and processability under aqueous …
photophysical characteristics, biofunctional interfaces, and processability under aqueous …
Peptides as bio-inspired electronic materials: An Electrochemical and first-principles perspective
J Yu, JR Horsley, AD Abell - Accounts of Chemical Research, 2018 - ACS Publications
Conspectus Molecular electronics is at the forefront of interdisciplinary research, offering a
significant extension of the capabilities of conventional silicon-based technology as well as …
significant extension of the capabilities of conventional silicon-based technology as well as …
Going the distance: long-range conductivity in protein and peptide bioelectronic materials
NL Ing, MY El-Naggar… - The Journal of Physical …, 2018 - ACS Publications
Bioelectronic materials interface biomolecules, cells, organs, or organisms with electronic
devices, and they represent an active and growing field of materials research. Protein and …
devices, and they represent an active and growing field of materials research. Protein and …
Stable and optoelectronic dipeptide assemblies for power harvesting
Low biocompatibility or engineerability of conventional inorganic materials limits their
extensive application for power harvesting in biological systems or at bio-machine …
extensive application for power harvesting in biological systems or at bio-machine …
Supramolecular construction of optoelectronic biomaterials
JD Tovar - Accounts of chemical research, 2013 - ACS Publications
Peptide self-assembly is a powerful method to create functional nanoscale materials such as
optoelectronically relevant organic nanostructures. The enormous potential that may come …
optoelectronically relevant organic nanostructures. The enormous potential that may come …
Toward peptide-based bioelectronics: reductionist design of conductive pili mimetics
T Guterman, E Gazit - Bioelectronics in medicine, 2018 - Taylor & Francis
Proteins and peptides possess inherent properties which can benefit medical devices that
interact with electro-responsive tissues. However, proteinaceous materials are typically …
interact with electro-responsive tissues. However, proteinaceous materials are typically …