Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell
Select supporting materials with good biocompatibility and biostability to immobilize the GOx enzyme on the suitable electrode material. Fabricate new anodic electrodes for self-pumping EBC: GOx [PEI/CC], GOx [TPP/CS/CC], GOx [Na®/CS/CC], and GOx[Na®/TPP/CS/CC]. Investigate the microstructure of var...
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National Chung Hsing University
2021
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https:--opac.tvu.edu.vn:9090-api-oai:368272021-03-08T07:42:38Z Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell Duong Ngoc Bich Select supporting materials with good biocompatibility and biostability to immobilize the GOx enzyme on the suitable electrode material. Fabricate new anodic electrodes for self-pumping EBC: GOx [PEI/CC], GOx [TPP/CS/CC], GOx [Na®/CS/CC], and GOx[Na®/TPP/CS/CC]. Investigate the microstructure of various anodic electrodes: using field emission scanning electron microscopy to characterize the surface morphology of anodic electrodes. Analyze the chemical structure of various prepared anodic electrodes: using attenuated total reflection Fourier transform infrared spectroscopy. Study the electrochemical characterization of the anodic electrodes: using cyclic voltammetry to understand the electron transfer ability various anodic electrodes. Evaluate the performance of the prepared anodic electrodes by integrating them into the self-pumping EBC developed by our group: the power output and the stability of the cell are presented. National Chung Hsing University Prof. Hsiharng Yang 2021-03-08T07:42:38Z pdf https://opac.tvu.edu.vn/pages/opac/wpid-detailbib-id-36827.html vie |
| institution |
Trung tâm Học liệu – Phát triển Dạy và Học, Trường Đại học Trà Vinh |
| collection |
Thư viện số |
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vie |
| description |
Select supporting materials with good biocompatibility and biostability to immobilize the GOx enzyme on the suitable electrode material. Fabricate new anodic electrodes for self-pumping EBC: GOx [PEI/CC], GOx [TPP/CS/CC], GOx [Na®/CS/CC], and GOx[Na®/TPP/CS/CC]. Investigate the microstructure of various anodic electrodes: using field emission scanning electron microscopy to characterize the surface morphology of anodic electrodes. Analyze the chemical structure of various prepared anodic electrodes: using attenuated total reflection Fourier transform infrared spectroscopy. Study the electrochemical characterization of the anodic electrodes: using cyclic voltammetry to understand the electron transfer ability various anodic electrodes. Evaluate the performance of the prepared anodic electrodes by integrating them into the self-pumping EBC developed by our group: the power output and the stability of the cell are presented. |
| author2 |
Prof. Hsiharng Yang |
| author_facet |
Prof. Hsiharng Yang Duong Ngoc Bich |
| author |
Duong Ngoc Bich |
| spellingShingle |
Duong Ngoc Bich Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| author_sort |
Duong Ngoc Bich |
| title |
Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| title_short |
Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| title_full |
Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| title_fullStr |
Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| title_full_unstemmed |
Development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| title_sort |
development of high efficient enzyme immobilization at anodic electrodes for self-pumping enzymatic biofuel cell |
| publisher |
National Chung Hsing University |
| publishDate |
2021 |
| url |
https://opac.tvu.edu.vn/pages/opac/wpid-detailbib-id-36827.html |
| _version_ |
1812602150794035200 |