Microbial fuel cells (MFCs), as a promising sustainable bioelectrochemical energy
technology for simultaneous wastewater recycling and treatments while generating …

Microbial fuel cells (MFCs) have attracted considerable interest due to their potential in
renewable electrical power generation using the broad diversity of biomass and organic …

Electrochemical analysis of sweat using soft bioelectronics on human skin provides a new
route for noninvasive glucose monitoring without painful blood collection. However, sweat …

By electronically wiring-up living cells with abiotic conductive surfaces, bioelectrochemical
systems (BES) harvest energy and synthesize electric-/solar-chemicals with unmatched …

In nature, many organisms are able to accommodate a complex living environment by
developing biological wet adhesive surfaces with unique functions such as fixation and …

During the past decade, biofuel cells (BFCs) have emerged as an emerging technology on
account of their ability to directly generate electricity from biologically renewable catalysts …

Electrochemically active bacteria can transport their metabolically generated electrons to
anodes, or accept electrons from cathodes to synthesize high‐value chemicals and fuels, via …

Coating individual bacterial cells with conjugated polymers to endow them with more
functionalities is highly desirable. Here, we developed an in situ polymerization method to …

Solar-driven distillation is now considered as a rising technology for the supply of fresh
water in the rare areas. As the crucial part of solar distillation, photothermal materials have …

Confining luminophores into modified hydrophilic matrices or polymers is a straightforward
and widely used approach for afterglow bioimaging. However, the afterglow quantum yield …