On/Off-switchable zipper-like bioelectronics on a graphene interface.

pH-induced on/off-switchable graphene bioelectronics

Interfacing nanomaterials for bioelectronic applications

The integration of nanomaterials as a bridge between the biological and electronic worlds has revolutionised understanding of how to generate functional bioelectronic devices and has opened up new horizons for the future of bioelectronics. The use of nanomaterials as a versatile interface in the area of bioelectronics offers many practical solutions and has recently emerged as a highly promisin...

Programmable bioelectronics in a stimuli-encoded 3D graphene interface.

The ability to program and mimic the dynamic microenvironment of living organisms is a crucial step towards the engineering of advanced bioelectronics. Here, we report for the first time a design for programmable bioelectronics, with 'built-in' switchable and tunable bio-catalytic performance that responds simultaneously to appropriate stimuli. The designed bio-electrodes comprise light and tem...

A Zipper-Like On/Off-Switchable Molecularly Imprinted Polymer

Stimuli-responsive peroxidase mimicking at a smart graphene interface.

A synergistic graphene-based catalyst was engineered by the in situ growth of "naked" Au-nanoparticles (NPs) on graphene sheets. The catalyst exhibits excellent switchable peroxidase-like activity in response to specific DNA.