Multifunctional carboxymethyl cellulose-based hydrogels with zwitterionic and silver nanowire components for wound management. [PDF]
Cheong KL +9 more
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Cross-scale design of abiotic-biotic interfaces for semi-artificial photosynthesis. [PDF]
Wang H +8 more
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Single-Molecule Conductance of Non-Redox Proteins: Mechanisms, Measurements, and Applications. [PDF]
Fan Z, Chen M, Xiang J, Zhang B.
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Comparative transcriptomics analysis of the <i>Oleidesulfovibrio alaskensis</i> G20 biofilms grown on copper and polycarbonate surfaces. [PDF]
Saxena P +4 more
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The Role of Anode Potential in Electromicrobiology. [PDF]
Li Y, Zong Y, Feng C, Zhao K.
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Scalable and Durable Brush Electrodes in Locally Enhanced Electric Field Treatment Systems for Water Disinfection. [PDF]
Mo F, Wang W, Wang S, Liu N, Xie X.
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Microbial Communities Powering Plant-Microbial Fuel Cells: Diversity, Functions and Biotechnological Perspectives. [PDF]
Freire JB +4 more
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Dual functional rGO/Fe<sub>3</sub>O<sub>4</sub>/PANI nanocomposite anodes for enhanced performance of microbial fuel cells. [PDF]
Weldegrum GS, Zemedagegnehu DA.
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In this Quick guide, Derek Lovley introduces microbial nanowires-conductive extracellular appendages made by some bacteria and archaea.
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Microbial nanowires: an electrifying tale
Electromicrobiology has gained momentum in the last 10 years with advances in microbial fuel cells and the discovery of microbial nanowires (MNWs). The list of MNW-producing micro-organisms is growing and providing intriguing insights into the presence of such micro-organisms in diverse environments and the potential roles MNWs can perform. This review
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