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 …
Recent progress in nanomaterial-based bioelectronic devices for biocomputing system
Bioelectronic devices have received the massive attention because of their huge potential to
develop the core electronic components for biocomputing system. Up to now, numerous …
develop the core electronic components for biocomputing system. Up to now, numerous …
Multilevel biomemory device consisting of recombinant azurin/cytochrome c
A multilevel biomemory device displays two pairs of nonvolatile write, read, and erase
functions (see figure). The device consists of recombinant azurin/cytochrome c. Azurin is …
functions (see figure). The device consists of recombinant azurin/cytochrome c. Azurin is …
Green thin film for stable electrical switching in a low-cost washable memory device: proof of concept
Low-cost and washable resistive switching (RS) memory devices with stable retention and
low operational voltage are important for higher speed and denser non-volatile memories. In …
low operational voltage are important for higher speed and denser non-volatile memories. In …
Tryptophan-accelerated electron flow across a protein–protein interface
K Takematsu, H Williamson… - Journal of the …, 2013 - ACS Publications
We report a new metallolabeled blue copper protein, Re126W122Cu I Pseudomonas
aeruginosa azurin, which has three redox sites at well-defined distances in the protein fold …
aeruginosa azurin, which has three redox sites at well-defined distances in the protein fold …
Electron transfer, conduction and biorecognition properties of the redox metalloprotein Azurin assembled onto inorganic substrates
The efficient implementation of functional biomolecules into hybrid devices is a central topic
in current material science research, and redox metalloproteins often emerged as promising …
in current material science research, and redox metalloproteins often emerged as promising …
Vibrational changes induced by electron transfer in surface bound azurin metalloprotein studied by tip-enhanced Raman spectroscopy and scanning tunneling …
The copper protein azurin, due to the peculiar coupling of its optical and vibronic properties
with electron transfer (ET) and its biorecognition capabilities, is a very promising candidate …
with electron transfer (ET) and its biorecognition capabilities, is a very promising candidate …
Improved Charge Transport across Bovine Serum Albumin–Au Nanoclusters' Hybrid Molecular Junction
Proteins, a highly complex substance, have been an essential element in living organisms,
and various applications are envisioned due to their biocompatible nature. Apart from …
and various applications are envisioned due to their biocompatible nature. Apart from …
Toward bioelectronic device based on bionanohybrid composed of nanomaterials and biomaterials: From nucleic acid and protein to living cell
Toward bioelectronic device based on bionanohybrid composed of nanomaterials and
biomaterials: From nucleic acid and protein to living cell | Applied Physics Reviews | AIP …
biomaterials: From nucleic acid and protein to living cell | Applied Physics Reviews | AIP …
Electrochemical nucleic acid detection based on parallel structural dsDNA/recombinant azurin hybrid
Several challenges remained to fabricate a molecular-level nucleic acid biosensor such as
surface immobilization control, single mismatch detection and low current response. To …
surface immobilization control, single mismatch detection and low current response. To …