Shuaidi Zhang

TL;DR: This review summarizes recent advances in the synthesis, assembly, and applications of nanoengineered reporting and transducing components critical for efficient biosensing, and envision the exciting potential of high-performance nanomaterials that will cause disruptive improvements in the field of biosensing.

TL;DR: In this paper, the authors discuss the current progress of naturally-derived bionanocomposites that has advanced our understanding of the biological/synthetic interfaces and present an outlook on the current trends in providing structural and interfacial enhancement as well as emerging applications which will employ new optical, sensing, structural, and actuating functionalities and properties.

TL;DR: A spontaneous formation of peculiar "shish kebab" nanostructures with the periodic arrangement of silk fibroin domains along straight segments of cellulose nanofibers is reported, enabling the ultrathin membrane to possess open, transparent, mechanically robust interlocked networks with high mechanical performance.

TL;DR: It is demonstrated that the simple quadruple electronic skin sensitively and selectively recognizes nine spatial biotactile positions and can readily be expanded.

TL;DR: An efficient and universal amphiphilicity-driven assembly strategy to construct "hairy" flexible hybrid nanosheets with a 1D cellulose nanofibers net conformally wrapped around 2D graphene oxide (GO) monolayers, allowing fast water transport combined with high filtration efficiency.