Qian-Wen Cheng scite author profile

By electronically wiring-up living cells with abiotic conductive surfaces, bioelectrochemical systems (BES) harvest energy and synthesize electric-/solar-chemicals with unmatched thermodynamic efficiency. However, the establishment of an efficient electronic interface between living cells and abiotic surfaces is hindered due to the requirement of extremely close contact and high interfacial area, which is quite challenging for cell and material engineering. Herein, we propose a new concept of a single cell electron collector, which is insitu built with an interconnected intact conductive layer on and cross the individual cell membrane. The single cell electron collector forms intimate contact with the cellular electron transfer machinery and maximizes the interfacial area, achieving record-high interfacial electron transfer efficiency and BES performance. Thus, this single cell electron collector provides a superior tool to wire living cells with abiotic surfaces at the single-cell level and adds new dimensions for abiotic/biotic interface engineering.

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Size-controlled biosynthesis of FeS nanoparticles for efficient removal of aqueous Cr(VI)

Cheng

Chen

et al. 2020

Chemical Engineering Journal

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Endogenously enhanced biosurfactant production promotes electricity generation from microbial fuel cells

Zheng

Yong

et al. 2015

Bioresource Technology

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Facile fabrication of conductive polyaniline nanoflower modified electrode and its application for microbial energy harvesting

Liu

Zhao

et al. 2017

Electrochimica Acta

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Qian-Wen Cheng

Single cell electron collectors for highly efficient wiring-up electronic abiotic/biotic interfaces

Size-controlled biosynthesis of FeS nanoparticles for efficient removal of aqueous Cr(VI)

Endogenously enhanced biosurfactant production promotes electricity generation from microbial fuel cells

Facile fabrication of conductive polyaniline nanoflower modified electrode and its application for microbial energy harvesting

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