Bioelectronic systems derived from peptides and proteins are of particular interest for
fabricating novel flexible, biocompatible and bioactive devices. These synthetic or …

Bacterial biofilms are promising tools for functional applications as bionanomaterials. They
are synthesized by well-defined machinery, readily form fiber networks covering large areas …

As interest in using proteins to assemble functional, biocompatible, and environmentally
friendly materials is growing, developing scalable protocols for producing recombinant …

Microbial protein nanowires are emerging as an alternative to abiotic nanowires for
electronics applications. Microbial nanowires are sustainably produced, robust, non-toxic …

Synthetic Biological Protein Nanowires with High Conductivity. - Abstract - Europe PMC Sign in
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Examples of long-range electronic conductivity are rare in biological systems. The
observation of micrometer-scale electronic transport through protein wires produced by …

Intrinsically conductive protein nanowires, microbially produced from inexpensive,
renewable feedstocks, are a sustainable alternative to traditional nanowire electronic …

Advances in synthetic biology permit the genetic encoding of synthetic chemistries at
monomeric precision, enabling the synthesis of programmable proteins with tunable …

Proteins and peptides possess inherent properties which can benefit medical devices that
interact with electro-responsive tissues. However, proteinaceous materials are typically …

The organized self-assembly of conductive biological structures holds promise for creating
new bioelectronic devices. In particular, Geobacter sulfurreducens type IVa pili have proven …