Enhanced biodegradation of perfluorooctanoic acid in a dual biocatalyzed microbial electrosynthesis system
The toxic perfluorooctanoic acid (PFOA) is widely spread in terrestrial and aquatic habitats
owing to its resistance to conventional degradation processes. Advanced techniques to …
owing to its resistance to conventional degradation processes. Advanced techniques to …
Kinetic analysis of electron transfer process in decolorization of azo dyes by Shewanella combined with porous organic polymers in MFCs
L Chen, L Jiang, Y Gao, S Pan, H Luan, G Zhang… - International Journal of …, 2024 - Elsevier
Two-dimensional nanostructured materials have emerged as very promising electrode
materials for bioelectrochemical systems, enabling high bioelectrical output. We constructed …
materials for bioelectrochemical systems, enabling high bioelectrical output. We constructed …
Kinetic study of electron transfer process in methyl orange decolorization by shewanella in MFCs with covalent organic frameworks modified anode
L Chen, L Jiang, L Cheng, Y Gao, M Wang, L Xu, Z Zhu - Chemosphere, 2024 - Elsevier
As a new electrode material for electrochemical systems, covalent organic framework (COF)
materials have been gradually applied to bioelectrochemical systems. In our previous study …
materials have been gradually applied to bioelectrochemical systems. In our previous study …
Spent Tea Leaves and Coffee Grounds as Potential Biocathode for Improved Microbial Electrosynthesis Performance
Microbial electrosynthesis (MES) has emerged as a sustainable energy platform capable of
simultaneous wastewater treatment and valuable chemical production. The performance of …
simultaneous wastewater treatment and valuable chemical production. The performance of …
Microbially catalyzed enhanced bioelectrochemical performance using covalent organic framework–modified cathode in a microbial electrosynthesis system
Electrode modification plays a critical role in enhancing the bioelectrochemical performance
of a microbial electrosynthesis system (MES). This study involved the modification of the …
of a microbial electrosynthesis system (MES). This study involved the modification of the …
[HTML][HTML] 结晶多孔材料基阳极在微生物电化学系统中的研究进展
李传福, 王天旗, 袁绍辉, 梁晶晶, 卡姆兰… - Open Journal of Natural …, 2023 - hanspub.org
结晶多孔材料基阳极在微生物电化学系统中的研究进展 学术期刊 切换导航 首页 文章 期刊 投稿 预
印 会议 书籍 新闻 合作 我们 按学科分类 Journals by Subject 按期刊分类 Journals by Title 核心 …
印 会议 书籍 新闻 合作 我们 按学科分类 Journals by Subject 按期刊分类 Journals by Title 核心 …
[HTML][HTML] Improving the Performance of Microbial Fuel Cell Electrode Materials to Enhance Electricity Production
L Wang, M Li - Journal of Energy Bioscience, 2024 - bioscipublisher.com
This study hopes to investigate novel materials and configurations that can increase
bacterial adhesion, improve electron transfer, and ultimately boost power output. The study …
bacterial adhesion, improve electron transfer, and ultimately boost power output. The study …
[PDF][PDF] Research Article Spent Tea Leaves and Coffee Grounds as Potential Biocathode for Improved Microbial Electrosynthesis Performance
Microbial electrosynthesis (MES) has emerged as a sustainable energy platform capable of
simultaneous wastewater treatment and valuable chemical production. The performance of …
simultaneous wastewater treatment and valuable chemical production. The performance of …