Shared posts

30 Jan 12:16

Elongated Riboflavin‐Producing Shewanella oneidensis in a Hybrid Biofilm Boosts Extracellular Electron Transfer

by Juntao Zhao, Feng Li, Shutian Kong, Tao Chen, Hao Song, Zhiwen Wang
Elongated Riboflavin-Producing Shewanella oneidensis in a Hybrid Biofilm Boosts Extracellular Electron Transfer

A spider-web-like hybrid biofilm comprising riboflavin (RF), multiwalled carbon nanotubes (MWCNTs), graphene oxide (GO) with adsorption elongated S. oneidensis, achieves a 77.83-fold increase in power (3736 mW m−2).


Abstract

Shewanella oneidensis is able to carry out extracellular electron transfer (EET), although its EET efficiency is largely limited by low flavin concentrations, poor biofilm forming-ability, and weak biofilm conductivity. After identifying an important role for riboflavin (RF) in EET via in vitro experiments, the synthesis of RF is directed to 837.74 ± 11.42 µm in S. oneidensis. Molecular dynamics simulation reveals RF as a cofactor that binds strongly to the outer membrane cytochrome MtrC, which is correspondingly further overexpressed to enhance EET. Then the cell division inhibitor sulA, which dramatically enhanced the thickness and biomass of biofilm increased by 155% and 77%, respectively, is overexpressed. To reduce reaction overpotential due to biofilm thickness, a spider-web-like hybrid biofilm comprising RF, multiwalled carbon nanotubes (MWCNTs), and graphene oxide (GO) with adsorption-optimized elongated S. oneidensis, achieve a 77.83-fold increase in power (3736 mW m−2) relative to MR-1 and dramatically reduce the charge-transfer resistance and boosted biofilm electroactivity. This work provides an elegant paradigm to boost EET based on a synthetic biology strategy and materials science strategy, opens up further opportunities for other electrogenic bacteria.

07 Jun 14:38

Cubane-forming cyclic dienes that exhibit orthogonal reactivities in the solid state

Chem. Commun., 2021, 57,6725-6727
DOI: 10.1039/D1CC02725E, Communication
Changan Li, Michael A. Sinnwell, Dale C. Swenson, Leonard R. MacGillivray
Cubane-like cages are constructed quantitatively in the solid state using either a cocrystal or single-component pure solid.
The content of this RSS Feed (c) The Royal Society of Chemistry
22 Oct 02:48

In situ synthesis of nitrogen doped carbon with embedded Co@Co3O4 nanoparticles as a bifunctional electrocatalyst for oxygen reduction and oxygen evolution reactions

Chem. Commun., 2018, 54,12746-12749
DOI: 10.1039/C8CC07956K, Communication
Ying Wang, Tianjun Hu, Yanting Qiao, Yan Chen, Limin Zhang
The catalyst Co@Co3O4/N–C was in situ synthesized by simple pyrolysis and subsequent oxidative calcination, exhibiting superior ORR and OER activity.
The content of this RSS Feed (c) The Royal Society of Chemistry
15 Jul 01:29

Record Efficiency Stable Flexible Perovskite Solar Cell Using Effective Additive Assistant Strategy

by Jiangshan Feng , Xuejie Zhu , Zhou Yang , Xiaorong Zhang , Jinzhi Niu , Ziyu Wang , Shengnan Zuo , Shashank Priya , Shengzhong (Frank) Liu , Dong Yang
Advanced Materials, EarlyView.
25 Nov 10:55

The Crystal Hotel: A Microfluidic Approach to Biomimetic Crystallization

by Xiuqing Gong, Yun-Wei Wang, Johannes Ihli, Yi-Yeoun Kim, Shunbo Li, Richard Walshaw, Li Chen, Fiona C. Meldrum
Thumbnail image of graphical abstract

A “crystal hotel” microfluidic device that allows crystal growth in confined volumes to be studied in situ is used to produce large calcite single crystals with predefined crystallographic orientation, microstructure, and shape by control of the detailed physical environment, flow, and surface chemistry. This general approach can be extended to form technologically important, nanopatterned single crystals.