Optimizing reduced graphene oxide aerogel for a supercapacitor
Reduce graphene oxide (rGO) aerogels with different precursor graphene oxide sheet sizes are synthesized using L-ascorbic acid reduction followed by an ambient pressure drying method. The sheet sizes determine the oxygen functionality content during aerogel formation, which subsequently affect its s...
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my.ump.umpir.308182021-09-20T15:30:24Z http://umpir.ump.edu.my/id/eprint/30818/ Optimizing reduced graphene oxide aerogel for a supercapacitor Poh Lee, Soon Gomaa, A.M. Ali H.H., Hegazy Lim, Hong Ngee Chong, Kwok Feng TP Chemical technology Reduce graphene oxide (rGO) aerogels with different precursor graphene oxide sheet sizes are synthesized using L-ascorbic acid reduction followed by an ambient pressure drying method. The sheet sizes determine the oxygen functionality content during aerogel formation, which subsequently affect its structural properties. The optimized sheet size renders strong parallel sheet stacking to provide mechanical strength that withstands capillary action during aerogel formation with a high surface area (190.40 m2 g−1) and pore volume (0.261 cm3 g−1). Such surface properties enhance the electrochemical properties of rGO aerogel (182 F g−1 at 0.75 A g−1) and render it to be an excellent electrode material for a supercapacitor. ACS Publication 2021-02 Article PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/30818/1/acs.energyfuels.0c04126-compressed.pdf Poh Lee, Soon and Gomaa, A.M. Ali and H.H., Hegazy and Lim, Hong Ngee and Chong, Kwok Feng (2021) Optimizing reduced graphene oxide aerogel for a supercapacitor. Batteries & Energy, 35 (5). pp. 4559-4569. file:///C|/Users/Library/Desktop/POSTGRAD%20FILES%202019-2020/pubs.acs.org/EF?ref=pdf DOI: 10.1021/acs.energyfuels.0c04126 |
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TP Chemical technology Poh Lee, Soon Gomaa, A.M. Ali H.H., Hegazy Lim, Hong Ngee Chong, Kwok Feng Optimizing reduced graphene oxide aerogel for a supercapacitor |
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Reduce graphene oxide (rGO) aerogels with different precursor graphene oxide sheet sizes are synthesized using L-ascorbic acid reduction followed by an ambient pressure drying method. The sheet sizes determine the oxygen functionality content during aerogel formation, which subsequently affect its structural properties. The optimized sheet size renders strong parallel sheet stacking to provide mechanical strength that withstands capillary action during aerogel formation with a high surface area (190.40 m2 g−1) and pore volume (0.261 cm3 g−1). Such surface properties enhance the electrochemical properties of rGO aerogel (182 F g−1 at 0.75 A g−1) and render it to be an excellent electrode material for a supercapacitor. |
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Article |
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Poh Lee, Soon Gomaa, A.M. Ali H.H., Hegazy Lim, Hong Ngee Chong, Kwok Feng |
author_facet |
Poh Lee, Soon Gomaa, A.M. Ali H.H., Hegazy Lim, Hong Ngee Chong, Kwok Feng |
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Poh Lee, Soon |
title |
Optimizing reduced graphene oxide aerogel for a supercapacitor |
title_short |
Optimizing reduced graphene oxide aerogel for a supercapacitor |
title_full |
Optimizing reduced graphene oxide aerogel for a supercapacitor |
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Optimizing reduced graphene oxide aerogel for a supercapacitor |
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Optimizing reduced graphene oxide aerogel for a supercapacitor |
title_sort |
optimizing reduced graphene oxide aerogel for a supercapacitor |
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ACS Publication |
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2021 |
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http://umpir.ump.edu.my/id/eprint/30818/1/acs.energyfuels.0c04126-compressed.pdf http://umpir.ump.edu.my/id/eprint/30818/ |
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