Modeling bacterial adhesion on the nanopatterned surface by varying contact area
K Yang, L Wang, X Zou, H Wang, C Liang… - Journal of Materials …, 2024 - Elsevier
Bacterial adhesion is a critical process in many fields, such as implant infections,
microbiologically influenced corrosion and bioelectricity generation in microbial fuel cells …
microbiologically influenced corrosion and bioelectricity generation in microbial fuel cells …
Fast deployable real-time bioelectric dissolved oxygen sensor based on a multi-source data fusion approach
Y Li, Y Chen, Y Chen, R Qing, X Cao, P Chen… - Chemical Engineering …, 2023 - Elsevier
Commercially available dissolved oxygen (DO) sensors are hardly suitable for stereoscopic
and precise DO monitoring due to their design, high cost and susceptibility to matrix effects …
and precise DO monitoring due to their design, high cost and susceptibility to matrix effects …
[HTML][HTML] Electrogenic sulfur oxidation mediated by cable bacteria and its ecological effects
Z Wang, L Digel, Y Yuan, H Lu, Y Yang, C Vogt… - Environmental Science …, 2023 - Elsevier
At the sediment-water interfaces, filamentous cable bacteria transport electrons from sulfide
oxidation along their filaments towards oxygen or nitrate as electron acceptors. These …
oxidation along their filaments towards oxygen or nitrate as electron acceptors. These …
Cysteine-mediated Extracellular Electron transfer of Lysinibacillus varians GY32
G Kong, Y Yang, Y Luo, F Liu, D Song… - Microbiology …, 2022 - Am Soc Microbiol
Microbial extracellular electron transfer (EET) is essential in many natural and engineering
processes. Compared with the versatile EET pathways of Gram-negative bacteria, the EET …
processes. Compared with the versatile EET pathways of Gram-negative bacteria, the EET …
Determinants of synergistic cell-cell interactions in bacteria
Bacteria are ubiquitous and colonize virtually every conceivable habitat on earth. To achieve
this, bacteria require different metabolites and biochemical capabilities. Rather than trying to …
this, bacteria require different metabolites and biochemical capabilities. Rather than trying to …
Nonelectroactive clostridium obtains extracellular electron transfer-capability after forming chimera with Geobacter
Extracellular electron transfer (EET) of microorganisms is a major driver of the microbial
growth and metabolism, including reactions involved in the cycling of C, N, and Fe in …
growth and metabolism, including reactions involved in the cycling of C, N, and Fe in …
[HTML][HTML] 微生物种间电子传递的研究进展
何恩静, 彭洁茹, 邱晓营, 范阳阳 - 微生物学通报, 2022 - wswxtb.ijournals.cn
种间电子传递可促进微生物发生共代谢, 因而在地球生物化学循环和环境污染修复中具有重要
意义. 根据电子传递方式的不同可将种间电子传递分为直接种间电子传递(direct interspecies …
意义. 根据电子传递方式的不同可将种间电子传递分为直接种间电子传递(direct interspecies …
Combination of the insulator‐based dielectrophoresis and hydrodynamic methods for separating bacteria smaller than 3 μm in bloodstream infection: Numerical …
Bloodstream infections have a high mortality rate with> 80,000 deaths per year in North
America. The inability to detect pathogens quickly in the early stages of the infection causes …
America. The inability to detect pathogens quickly in the early stages of the infection causes …
Design and construction of electroactive cells by synthetic biology strategies
YOU Zixuan, LI Feng, S Hao - Synthetic Biology Journal, 2022 - synbioj.cip.com.cn
Bioelectrocatalytic systems (BESs) employ redox reactions of electroactive cells on
electrodes to integrate biocatalysis and electrocatalysis, providing a green, economical and …
electrodes to integrate biocatalysis and electrocatalysis, providing a green, economical and …
微生物电合成转化二氧化碳研究进展
陈雨, 张康, 邱以婧, 程彩云, 殷晶晶, 宋天顺… - 合成生物学, 2024 - synbioj.cip.com.cn
为了实现碳中和绿色经济, 人们利用生物炼制技术对二氧化碳(CO 2) 进行转化利用. 其中,
微生物电合成(MES) 是通过电能驱动生物催化剂将CO 2 转化为化学品的新兴技术. 目前MES …
微生物电合成(MES) 是通过电能驱动生物催化剂将CO 2 转化为化学品的新兴技术. 目前MES …