SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4210603816> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W4210603816 endingPage "130725" @default.
W4210603816 startingPage "130725" @default.
W4210603816 abstract "Microbial fuel cells have become a research topic of considerable interest in bioelectrochemistry, considering their potential to replace fossil energy sources. However, the main factor limiting their commercial application is poor anode performance, which leads to a lower power density. Herein, based on the interaction between iron minerals and electroactive microorganisms in geological systems, metal-organic framework-derived iron oxide-modified carbon cloth was prepared using a simple hydrothermal roasting method to enhance the extracellular electron transfer function of electricity-producing microorganisms, and was evaluated in two-chamber microbial fuel cells. Electrochemical tests showed that MIL-Fe2O3 and MIL-Fe3O4 nanoparticles effectively enhanced the electrochemical performance and biocompatibility of the anode. The microbial fuel cell equipped with MIL-Fe3O4/CC achieved an output power density of 4305 mW/m2. This excellent performance can be attributed to the fact that MIL-88(Fe)-derived iron oxide facilitates the adhesion of electricity-producing microorganisms to the anode and the secretion of proteins related to extracellular electron transfer, realizing the synergistic promotion of c-type cytochrome and flavin. This study provides a strategy for preparing high-performance microbial fuel cell anode materials, thus sustaining the promise for the eventual commercialization of microbial fuel cells." @default.
W4210603816 created "2022-02-08" @default.
W4210603816 creator A5012111412 @default.
W4210603816 creator A5020568750 @default.
W4210603816 creator A5030719289 @default.
W4210603816 creator A5056576946 @default.
W4210603816 creator A5069085050 @default.
W4210603816 creator A5075877965 @default.
W4210603816 creator A5091693266 @default.
W4210603816 date "2022-03-01" @default.
W4210603816 modified "2023-10-18" @default.
W4210603816 title "Metal-organic framework-derived iron oxide modified carbon cloth as a high-power density microbial fuel cell anode" @default.
W4210603816 cites W1994193521 @default.
W4210603816 cites W1997786635 @default.
W4210603816 cites W2002342453 @default.
W4210603816 cites W2020745108 @default.
W4210603816 cites W2027310787 @default.
W4210603816 cites W2043064925 @default.
W4210603816 cites W2063725562 @default.
W4210603816 cites W2091363744 @default.
W4210603816 cites W2094194724 @default.
W4210603816 cites W2104743692 @default.
W4210603816 cites W2106858686 @default.
W4210603816 cites W2108220471 @default.
W4210603816 cites W2119989570 @default.
W4210603816 cites W2122382695 @default.
W4210603816 cites W2133699671 @default.
W4210603816 cites W2146344636 @default.
W4210603816 cites W2148377444 @default.
W4210603816 cites W2155502960 @default.
W4210603816 cites W2283748763 @default.
W4210603816 cites W2313620021 @default.
W4210603816 cites W2518467579 @default.
W4210603816 cites W2527536097 @default.
W4210603816 cites W2560392130 @default.
W4210603816 cites W2593348793 @default.
W4210603816 cites W2624465165 @default.
W4210603816 cites W2765781131 @default.
W4210603816 cites W2789743816 @default.
W4210603816 cites W2790267762 @default.
W4210603816 cites W2792810338 @default.
W4210603816 cites W2802035147 @default.
W4210603816 cites W2803758167 @default.
W4210603816 cites W2807736796 @default.
W4210603816 cites W2896832985 @default.
W4210603816 cites W2901421020 @default.
W4210603816 cites W2967360033 @default.
W4210603816 cites W2971374873 @default.
W4210603816 cites W2977263003 @default.
W4210603816 cites W2982307630 @default.
W4210603816 cites W2982391045 @default.
W4210603816 cites W2998275318 @default.
W4210603816 cites W2999472412 @default.
W4210603816 cites W3010716874 @default.
W4210603816 cites W3014689756 @default.
W4210603816 cites W3015637256 @default.
W4210603816 cites W3028247856 @default.
W4210603816 cites W3032686064 @default.
W4210603816 cites W3037396167 @default.
W4210603816 cites W3038363087 @default.
W4210603816 cites W3042680987 @default.
W4210603816 cites W3043796169 @default.
W4210603816 cites W3083010103 @default.
W4210603816 cites W3087146560 @default.
W4210603816 cites W3087754471 @default.
W4210603816 cites W3088588095 @default.
W4210603816 cites W3104990848 @default.
W4210603816 cites W3109597240 @default.
W4210603816 cites W3111036514 @default.
W4210603816 cites W3120710280 @default.
W4210603816 cites W3127948355 @default.
W4210603816 cites W3131933817 @default.
W4210603816 cites W3137678998 @default.
W4210603816 cites W3165951546 @default.
W4210603816 cites W3173624724 @default.
W4210603816 cites W3180512306 @default.
W4210603816 doi "https://doi.org/10.1016/j.jclepro.2022.130725" @default.
W4210603816 hasPublicationYear "2022" @default.
W4210603816 type Work @default.
W4210603816 citedByCount "26" @default.
W4210603816 countsByYear W42106038162022 @default.
W4210603816 countsByYear W42106038162023 @default.
W4210603816 crossrefType "journal-article" @default.
W4210603816 hasAuthorship W4210603816A5012111412 @default.
W4210603816 hasAuthorship W4210603816A5020568750 @default.
W4210603816 hasAuthorship W4210603816A5030719289 @default.
W4210603816 hasAuthorship W4210603816A5056576946 @default.
W4210603816 hasAuthorship W4210603816A5069085050 @default.
W4210603816 hasAuthorship W4210603816A5075877965 @default.
W4210603816 hasAuthorship W4210603816A5091693266 @default.
W4210603816 hasConcept C104779481 @default.
W4210603816 hasConcept C121332964 @default.
W4210603816 hasConcept C127413603 @default.
W4210603816 hasConcept C140205800 @default.
W4210603816 hasConcept C147789679 @default.
W4210603816 hasConcept C159985019 @default.
W4210603816 hasConcept C163258240 @default.
W4210603816 hasConcept C165337572 @default.