The rational design of hierarchical CoS2/CuCo2S4 for three-dimensional all-solid-state hybrid supercapacitors with high energy density, rate efficiency, and operational stability
文献情報
Yogesh Kumar Sonia, Mahesh Kumar Paliwal, Sumanta Kumar Meher
In the context of developing all-solid-state hybrid supercapacitor devices with superior performance, and excellent charge storage, energy and power densities, working stability, and rate efficiency, herein, we have adopted an anion-exchange method to design hierarchically structured CoS2/CuCo2S4 with multiple reactive equivalents, enhanced conductivity, and a distinctive ion-permeable bulk microstructure. The electrochemical investigation of CoS2/CuCo2S4 in a three-electrode setup revealed the excellent high-rate specific capacitance (1492 F g−1 at 6 A g−1), strong redox reversibility, trivial voltage drop, extremely low charge transfer (approximately 0.23 Ω), and low Warburg and equivalent series (0.78 Ω) resistance of the material. Furthermore, a thorough electrochemical study of the CoS2/CuCo2S4‖N-rGO all-solid-state hybrid supercapacitor (ASSHSC) device (with CoS2/CuCo2S4 and N-rGO as the positive and negative electrode materials, respectively) showed a substantial faradaic contribution to the overall charge storage, a small high-rate overpotential, an insignificant voltage drop, exceptional rate capacitance/capacity, excellent coulombic efficiency under high-rate conditions, and very low charge transfer and equivalent series resistance. The CoS2/CuCo2S4‖N-rGO ASSHSC device offers remarkable high-rate energy density (20.7 W h kg−1 at an extreme power density of approximately 23 000 W kg−1) and operational stability (approximately 92.8% after 10 000 GCD cycles). The excellent energy storage performance of the CoS2/CuCo2S4-based ASSHSC device is ascribed to the abundant boundary pores and inter-crystallite pores, multiple redox possibilities (due to Co3+, Co2+, and Cu2+), electroactive ion-reservoir-like behaviour, active CoS2|CuCo2S4 interface, enhanced electromechanical stability of the electrode materials, and CoS2- and N-induced improved conductivity of CoS2/CuCo2S4 and N-rGO, respectively.
おすすめジャーナル
関連文献
Template controlled self-assembly of bidentate phosphine complexes with hemilabile coordination behaviour
Samir Chikkali, Dietrich Gudat, Mark Niemeyer
DOI: 10.1039/B616102B
Maximising opportunities in supercritical chemistry: the continuous conversion of levulinic acid to γ-valerolactone in CO2
Richard A. Bourne, James G. Stevens, Jie Ke, Martyn Poliakoff
DOI: 10.1039/B708754C
Molecular oxygen activation by a molybdenum(iv) monooxo bis(β-ketiminato) complex
Ganna Lyashenko, Gerald Saischek, Aritra Pal, Regine Herbst-Irmer, Nadia C. Mösch-Zanetti
DOI: 10.1039/B617199K
New trifluoromethylated derivatives of [60]fullerene, C60(CF3)n with n = 12 and 14
Nadezhda A. Omelyanyuk, Alexey A. Goryunkov, Nadezhda B. Tamm, Stanislav M. Avdoshenko, Ilya N. Ioffe, Lev N. Sidorov, Erhard Kemnitz, Sergey I. Troyanov
DOI: 10.1039/B709684D
High-connectivity networks: characterization of the first uninodal 9-connected net and two topologically novel 7-connected nets
J. Jacob Morris, Bruce C. Noll, Kenneth W. Henderson
DOI: 10.1039/B711668C
Magnetic exchange coupling tunable by means of selective cation binding into poly(radical-armed) azacrowns
Kazuki Igarashi, Takashi Nogami
DOI: 10.1039/B613637K
Macropolyhedral boron-containing cluster chemistry. Novel intercluster linkages from the reaction of [Pt(cod)Cl2] and [PtMe2(PMe2Ph)2] with 6,6′-(B10H13)2O
Jonathan Bould, John D. Kennedy
DOI: 10.1039/B712084B
Transition metal dinitrogen complexes supported by a versatile monoanionic [N2P2] ligand
Wayne A. Chomitz, John Arnold
DOI: 10.1039/B709763H
Construction of di-scFv through a trivalent alkyne–azide 1,3-dipolar cycloaddition
Arutselvan Natarajan, Wenjun Du, Cheng-Yi Xiong, Gerald L. DeNardo, Sally J. DeNardo, Jacquelyn Gervay-Hague
DOI: 10.1039/B611636A
An unprecedented (6,8)-connected self-penetrating network based on two distinct zinc clusters
Ya-Qian Lan, Xin-Long Wang, Shun-Li Li, Zhong-Min Su, Kui-Zhan Shao, En-Bo Wang
DOI: 10.1039/B709835A
こちらもおすすめ
5-苄基四氢吡咯并[3,4-c]吡咯-1,3[2H,3ah]-二酮の主な用途は何ですか?
5-苄基四氢吡咯并[3,4-c]吡咯-1,3[2H,3ah]-二酮は、主に薬理学的研究と合成化学に使用されます。また、特定の医薬品の合成原材料としても利用されま...
唾液酸路易ス Aを取り扱う際の実験室安全事項は何ですか?
唾液酸路易ス Aの取り扱いでは、個別の防護具(PPE)が必要で、手袋、顔面保護具、防塵マスクを着用します。ドラフトチャンバーを使用し、漏洩時の適切な処理を行うこ...
タルトブチル ((1-(2-クロロアセチル)ピペリジン-4-イルメチル)カーバamatはどの業界で使用されていますか?
タルトブチル ((1-(2-クロロアセチル)ピペリジン-4-イルメチル)カーバamatは、医薬品業界、ポリマー業界、センサー技術、半導体業界などで使用されていま...
3-烯丙基-2-羟基苯甲醛の物理化学的性質は何ですか?
3-烯丙基-2-羟基苯甲醛のCAS番号は24019-66-7です。物化性質としては、白色結晶性粉末で、分子量は174.22です。この化合物は水に溶けやすく、反応...
乳清酸 Potassium Orotateとは何ですか?
乳清酸 Potassium Orotateは、CAS番号24598-73-0の化合物で、乳清酸と Potassium(カリウム)による塩基です。化学式はC7H7...
4-甲基苯磺酸异丙酯はどの業界で使用されていますか?
4-甲基苯磺酸异丙酯は医薬品業界で広く使用されています。また、ポリマーの増塑剤や半導体製造におけるセンサー材料としても使用されることがあります。
6-(3- Florobenzen)-N-[1-(2,2,2- Trifluoroethyl)-4-Piperidinyl]-3-Pyridinycarboxamideはどの業界で使用されていますか?
6-(3-氟苯基)-N-[1-(2,2,2-三氟乙基)-4-哌啶基]-3-吡啶羧酰胺は医薬品産業で広く使用されており、その特性は抗炎症作用や抗ウイルス作用など、...
左西孟旦はどのように合成されますか?
左西孟旦は、3-[(2-メチルフェニル)-2-(4-メチルフェニル)-1-オキシエチル]-1,2,4-トリTürkiyeン-5-カルボン酸と4-メチルフェニル-...
3-乙氧基哌啶盐酸盐に適用される法規ガイドラインは何ですか?
CAS番号1159826-79-5の3-乙氧基哌啶盐酸盐は、GHS分類ではイエローカテゴリーに分類され、毒性物質として扱われます。REACH規則では、製造または...
Diethyl (hydroxymethyl)phosphonateの主な用途は何ですか?
Diethyl (hydroxymethyl)phosphonateは、医薬品の製造や農薬、合成化学の一部として利用されます。











![2-[1-(4-Chlorobenzyl)-1H-indol-3-yl]-2-oxo-N-(6-quinolinyl)acetamide structure 2-[1-(4-Chlorobenzyl)-1H-indol-3-yl]-2-oxo-N-(6-quinolinyl)acetamide structure](https://static.chemtradehub.com/structs/501/501921-61-5-756a.webp)



![4-{2-[(9H-Fluoren-9-ylmethoxy)carbonyl]hydrazino}benzoic acid structure 4-{2-[(9H-Fluoren-9-ylmethoxy)carbonyl]hydrazino}benzoic acid structure](https://static.chemtradehub.com/structs/214/214475-53-3-bf36.webp)