Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices
Batteries and supercapacitors (SCs) are energy storage devices that are more efficient, smaller, lighter, and capable of storing greater amounts of energy, thereby meeting the higher energy storage requirements of the modern world. However, real-world commercial carbon-based SCs face the persistent...
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my.uniten.dspace-363182025-03-03T15:41:55Z Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices Yeganeh Ghotbi M. Sikiru S.O. Ansari M.N.M. Soleimani H. Kou L. Song J. 24484463700 57211063469 55489853600 55556142100 57200000963 57199653133 Capacitor storage Iron compounds Organometallics Phosphate minerals Potassium compounds Precious metal compounds Refractory metal compounds Tin compounds Carbon material Carbon nanocomposite Copper sulphide/carbon nanocomposite Copper sulphides Doped carbons Energy Energy density N,S-doped carbon Nanohybrids S-doped Copper compounds Batteries and supercapacitors (SCs) are energy storage devices that are more efficient, smaller, lighter, and capable of storing greater amounts of energy, thereby meeting the higher energy storage requirements of the modern world. However, real-world commercial carbon-based SCs face the persistent challenge of relatively low energy density and capacity. To address this, researchers have investigated strategies such as doping carbon materials with heteroatoms and hybridizing or combining carbon with specific metal compounds. In this study, a novel copper ferrocyanide/sulfide/N,S-doped carbon nanocomposite was developed by using a copper hydroxide ferrocyanide nanohybrid as a precursor. The copper phases were selectively removed through an acid etching process. High-resolution transmission electron microscopy and X-ray photoelectron spectroscopy analyses confirmed the structure and chemical bonding in the resulting materials. These nanocomposites and doped carbon materials were used as active components in supercapacitor electrodes. A commercial-like symmetric SC device was then fabricated by using N,S-doped carbon nanosheets and an organic commercial electrolyte. The device exhibited a high capacitance of 33 F/g, an energy density of 41 Wh/kg, and a power density of 1500 W/kg using a conventional slow charge-discharge approach. It also demonstrated a capacitance retention of over 90% after 1000 cycles in a fast charge approach. ? 2024 American Chemical Society. Final 2025-03-03T07:41:55Z 2025-03-03T07:41:55Z 2024 Article 10.1021/acsaem.4c01440 2-s2.0-85205057598 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85205057598&doi=10.1021%2facsaem.4c01440&partnerID=40&md5=cb3fd3470d27f11ff849102b8c533073 https://irepository.uniten.edu.my/handle/123456789/36318 7 18 7885 7894 American Chemical Society Scopus |
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Capacitor storage Iron compounds Organometallics Phosphate minerals Potassium compounds Precious metal compounds Refractory metal compounds Tin compounds Carbon material Carbon nanocomposite Copper sulphide/carbon nanocomposite Copper sulphides Doped carbons Energy Energy density N,S-doped carbon Nanohybrids S-doped Copper compounds |
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Capacitor storage Iron compounds Organometallics Phosphate minerals Potassium compounds Precious metal compounds Refractory metal compounds Tin compounds Carbon material Carbon nanocomposite Copper sulphide/carbon nanocomposite Copper sulphides Doped carbons Energy Energy density N,S-doped carbon Nanohybrids S-doped Copper compounds Yeganeh Ghotbi M. Sikiru S.O. Ansari M.N.M. Soleimani H. Kou L. Song J. Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices |
| description |
Batteries and supercapacitors (SCs) are energy storage devices that are more efficient, smaller, lighter, and capable of storing greater amounts of energy, thereby meeting the higher energy storage requirements of the modern world. However, real-world commercial carbon-based SCs face the persistent challenge of relatively low energy density and capacity. To address this, researchers have investigated strategies such as doping carbon materials with heteroatoms and hybridizing or combining carbon with specific metal compounds. In this study, a novel copper ferrocyanide/sulfide/N,S-doped carbon nanocomposite was developed by using a copper hydroxide ferrocyanide nanohybrid as a precursor. The copper phases were selectively removed through an acid etching process. High-resolution transmission electron microscopy and X-ray photoelectron spectroscopy analyses confirmed the structure and chemical bonding in the resulting materials. These nanocomposites and doped carbon materials were used as active components in supercapacitor electrodes. A commercial-like symmetric SC device was then fabricated by using N,S-doped carbon nanosheets and an organic commercial electrolyte. The device exhibited a high capacitance of 33 F/g, an energy density of 41 Wh/kg, and a power density of 1500 W/kg using a conventional slow charge-discharge approach. It also demonstrated a capacitance retention of over 90% after 1000 cycles in a fast charge approach. ? 2024 American Chemical Society. |
| author2 |
24484463700 |
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24484463700 Yeganeh Ghotbi M. Sikiru S.O. Ansari M.N.M. Soleimani H. Kou L. Song J. |
| format |
Article |
| author |
Yeganeh Ghotbi M. Sikiru S.O. Ansari M.N.M. Soleimani H. Kou L. Song J. |
| author_sort |
Yeganeh Ghotbi M. |
| title |
Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices |
| title_short |
Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices |
| title_full |
Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices |
| title_fullStr |
Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices |
| title_full_unstemmed |
Copper Sulfide/N,S-Doped Carbon Nanocomposites as High-Performance Supercapacitor Devices |
| title_sort |
copper sulfide/n,s-doped carbon nanocomposites as high-performance supercapacitor devices |
| publisher |
American Chemical Society |
| publishDate |
2025 |
| _version_ |
1825816018902056960 |
| score |
13.244109 |