Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method
Ordered carbon (OC) with large surface area was prepared via replication by using Santa Barbara Amorphous-15 as a template and sucrose as a carbon precursor. The prepared OC was then noncovalently functionalized with Basic Red 2 dye precursor (BR2) to obtain OC-BR2, a nitrogen-containing carbon-base...
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Korean Society of Industrial Engineering Chemistry
2015
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my.utm.550052017-02-15T07:16:46Z http://eprints.utm.my/id/eprint/55005/ Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method Razman, Nur Izzatie Hannah Endud, Salasiah Ramli, Zainab Lintang, Hendrik Oktendy Misnon, Izan Izwan Mat, Hanapi QD Chemistry Ordered carbon (OC) with large surface area was prepared via replication by using Santa Barbara Amorphous-15 as a template and sucrose as a carbon precursor. The prepared OC was then noncovalently functionalized with Basic Red 2 dye precursor (BR2) to obtain OC-BR2, a nitrogen-containing carbon-based nanocomposite with enhanced electrical properties. The functionalization was explained through adsorption isotherm, kinetic, and thermodynamic studies performed under variable conditions. The electrochemical performance test results demonstrated that the nanocomposite presents enhanced capacitance (48.4%) compared with the original OC, with maximum specific capacitance of 227Fg-1 at 0.5Ag-1 in 1M KOH electrolyte. Korean Society of Industrial Engineering Chemistry 2015-11 Article PeerReviewed Razman, Nur Izzatie Hannah and Endud, Salasiah and Ramli, Zainab and Lintang, Hendrik Oktendy and Misnon, Izan Izwan and Mat, Hanapi (2015) Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method. Journal of Industrial and Engineering Chemistry, 31 . pp. 343-351. ISSN 1226-086X http://dx.doi.org/10.1016/j.jiec.2015.07.008 DOI:10.1016/j.jiec.2015.07.008 |
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QD Chemistry Razman, Nur Izzatie Hannah Endud, Salasiah Ramli, Zainab Lintang, Hendrik Oktendy Misnon, Izan Izwan Mat, Hanapi Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
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Ordered carbon (OC) with large surface area was prepared via replication by using Santa Barbara Amorphous-15 as a template and sucrose as a carbon precursor. The prepared OC was then noncovalently functionalized with Basic Red 2 dye precursor (BR2) to obtain OC-BR2, a nitrogen-containing carbon-based nanocomposite with enhanced electrical properties. The functionalization was explained through adsorption isotherm, kinetic, and thermodynamic studies performed under variable conditions. The electrochemical performance test results demonstrated that the nanocomposite presents enhanced capacitance (48.4%) compared with the original OC, with maximum specific capacitance of 227Fg-1 at 0.5Ag-1 in 1M KOH electrolyte. |
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Article |
author |
Razman, Nur Izzatie Hannah Endud, Salasiah Ramli, Zainab Lintang, Hendrik Oktendy Misnon, Izan Izwan Mat, Hanapi |
author_facet |
Razman, Nur Izzatie Hannah Endud, Salasiah Ramli, Zainab Lintang, Hendrik Oktendy Misnon, Izan Izwan Mat, Hanapi |
author_sort |
Razman, Nur Izzatie Hannah |
title |
Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
title_short |
Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
title_full |
Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
title_fullStr |
Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
title_full_unstemmed |
Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
title_sort |
enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method |
publisher |
Korean Society of Industrial Engineering Chemistry |
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2015 |
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http://eprints.utm.my/id/eprint/55005/ http://dx.doi.org/10.1016/j.jiec.2015.07.008 |
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