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 …
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 …
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 …
Bioengineering a single-protein junction
Bioelectronics moves toward designing nanoscale electronic platforms that allow in vivo
determinations. Such devices require interfacing complex biomolecular moieties as the …
determinations. Such devices require interfacing complex biomolecular moieties as the …
Electronic transport in molecular wires of precisely controlled length built from modular proteins
DNA molecular wires have been studied extensively because of the ease with which
molecules of controlled length and composition can be synthesized. The same has not been …
molecules of controlled length and composition can be synthesized. The same has not been …
Rational Design of Stimuli‐Responsive Inorganic 2D Materials via Molecular Engineering: Toward Molecule‐Programmable Nanoelectronics
J Muñoz - Advanced Materials, 2024 - Wiley Online Library
The ability of electronic devices to act as switches makes digital information processing
possible. Succeeding graphene, emerging inorganic 2D materials (i2DMs) have been …
possible. Succeeding graphene, emerging inorganic 2D materials (i2DMs) have been …
Electrochemical control of single-molecule conductance by Fermi-level tuning and conjugation switching
M Baghernejad, X Zhao, K Baruël Ørnsø… - Journal of the …, 2014 - ACS Publications
Controlling charge transport through a single molecule connected to metallic electrodes
remains one of the most fundamental challenges of nanoelectronics. Here we use …
remains one of the most fundamental challenges of nanoelectronics. Here we use …
Electronic transport via homopeptides: The role of side chains and secondary structure
L Sepunaru, S Refaely-Abramson… - Journal of the …, 2015 - ACS Publications
Many novel applications in bioelectronics rely on the interaction between biomolecules and
electronically conducting substrates. However, crucial knowledge about the relation …
electronically conducting substrates. However, crucial knowledge about the relation …
Electrochemical single-molecule transistors with optimized gate coupling
Electrochemical gating at the single molecule level of viologen molecular bridges in ionic
liquids is examined. Contrary to previous data recorded in aqueous electrolytes, a clear and …
liquids is examined. Contrary to previous data recorded in aqueous electrolytes, a clear and …
Single-Molecule Observation of Redox Reactions Enabled by Rigid and Isolated Tripodal Molecules
Y Kobayashi, Y Yokota, RA Wong, M Hong… - The Journal of …, 2022 - ACS Publications
Tracking various chemical reactions, including electrochemical and photochemical reactions
at the single-molecule level, is expected to yield a great deal of knowledge from both …
at the single-molecule level, is expected to yield a great deal of knowledge from both …