Chinese Journal of Chemical Engineering ›› 2024, Vol. 67 ›› Issue (3): 1-8.DOI: 10.1016/j.cjche.2023.11.020
Wei Guo1, Yan Zhang2, Xiaxin Lei1, Shuang Wang2,3,
Received:
2023-08-24
Revised:
2023-11-03
Online:
2024-06-01
Published:
2024-03-28
Contact:
Shuang Wang,E-mail address:wangshuang@tyut.edu.cn.
Supported by:
Wei Guo1, Yan Zhang2, Xiaxin Lei1, Shuang Wang2,3,
通讯作者:
Shuang Wang,E-mail address:wangshuang@tyut.edu.cn.
基金资助:
Wei Guo, Yan Zhang, Xiaxin Lei, Shuang Wang. An effective strategy of constructing multi-metallic oxides of ZnO/CoNiO2/CoO/C microflowers for improved supercapacitive performance[J]. Chinese Journal of Chemical Engineering, 2024, 67(3): 1-8.
Wei Guo, Yan Zhang, Xiaxin Lei, Shuang Wang. An effective strategy of constructing multi-metallic oxides of ZnO/CoNiO2/CoO/C microflowers for improved supercapacitive performance[J]. 中国化学工程学报, 2024, 67(3): 1-8.
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URL: https://cjche.cip.com.cn/EN/10.1016/j.cjche.2023.11.020
[1] S. Chandra Sekhar, G. Nagaraju, B. Ramulu, S.K. Hussain, D. Narsimulu, J.S. Yu, Multifunctional core-shell-like nanoarchitectures for hybrid supercapacitors with high capacity and long-term cycling durability, Nano Res. 12(10)(2019)2597-2608. [2] J.K. Wang, Y.J. Wang, Z.P. Yao, Z.H. Jiang, Metal-organic framework-derived Ni doped Co3S4 hierarchical nanosheets as a monolithic electrocatalyst for highly efficient hydrogen evolution reaction in alkaline solution, Chin. J. Chem. Eng. 42(2022)380-388. [3] M.C. Wu, W.Y. Zheng, X. Hu, F.Y. Zhan, Q.Q. He, H.Y. Wang, Q.C. Zhang, L.Y. Chen, Exploring 2D energy storage materials:Advances in structure, synthesis, optimization strategies, and applications for monovalent and multivalent metal-ion hybrid capacitors, Small 18(50)(2022)2205101. [4] H. Chang, Y.F. Guo, X. Liu, P.F. Wang, Y. Xie, T.F. Yi, Dual MOF-derived Fe/N/Ptridoped carbon nanotube as high-performance oxygen reduction catalysts for zinc-air batteries, Appl. Catal., B 327(2023)122469. [5] M.S. Rahmanifar, H. Hesari, A. Noori, M.Y. Masoomi, A. Morsali, M.F. Mousavi, A dual Ni/Co-MOF-reduced graphene oxide nanocomposite as a high performance supercapacitor electrode material, Electrochim. Acta 275(2018)76-86. [6] R. Thangavel, A.G. Kannan, R. Ponraj, V. Thangavel, D.W. Kim, Y.S. Lee, Highenergy green supercapacitor driven by ionic liquid electrolytes as an ultrahigh stable next-generation energy storage device, J. Power Sour. 383(2018)102-109. [7] W.J. Meng, W. Chen, L. Zhao, Y. Huang, M.S. Zhu, Y. Huang, Y.Q. Fu, F.X. Geng, J. Yu, X.F. Chen, C.Y. Zhi, Porous Fe3O4/carbon composite electrode material prepared from metal-organic framework template and effect of temperature on its capacitance, Nano Energy 8(2014)133-140. [8] K. Prasad, G. Rajasekhara Reddy, G. Manjula, S.H. Park, Y. Suh, B. Purusottam Reddy, K. Mallikarjuna, B. Deva Prasad Raju, Morphological transformation of rod-like to pebbles-like CoMoO4 microstructures for energy storage devices, Chem. Phys. 553(2022)111382. [9] M. Ahmad, I. Hussain, T. Nawaz, Y.X. Li, X. Chen, S. Ali, M. Imran, X.X. Ma, K.L. Zhang, Comparative study of ternary metal chalcogenides (MX; M=Zn-Co-Ni; X=S, Se, Te):Formation process, charge storage mechanism and hybrid supercapacitor, J. Power Sour. 534(2022)231414. [10] J.A.A. Mehrez, K.A. Owusu, Q. Chen, L. Li, K. Hamwi, W. Luo, L.Q. Mai, Hierarchical MnCo2O4@NiMoO4 as free-standing core-shell nanowire arrays with synergistic effect for enhanced supercapacitor performance, Inorg. Chem. Front. 6(3)(2019)857-865. [11] R.R. Salunkhe, Y.V. Kaneti, Y. Yamauchi, Metaleorganic framework-derived nanoporous metal oxides toward supercapacitor applications:Progress and prospects, ACS Nano 11(6)(2017)5293-5308. [12] D.P. Cai, B. Liu, D.D. Wang, L.L. Wang, Y. Liu, H. Li, Y.R. Wang, Q.H. Li, T.H. Wang, Construction of unique NiCo2O4 nanowire@CoMoO4 nanoplate core/shell arrays on Ni foam for high areal capacitance supercapacitors, J. Mater. Chem. A 2(14)(2014)4954-4960. [13] Y.H. Zhao, X.Y. He, R.R. Chen, Q. Liu, J.Y. Liu, D.L. Song, H.S. Zhang, H.X. Dong, R. M. Li, M.L. Zhang, J. Wang, Hierarchical NiCo2S4@CoMoO4 core-shell heterostructures nanowire arrays as advanced electrodes for flexible all-solid-state asymmetric supercapacitors, Appl. Surf. Sci. 453(2018)73-82. [14] Y.Y. Zhu, X.X. Liao, H.R. Qiu, S.L. An, Y.Q. Zhang, W.X. He, Mixed metals oxides with strong synergetic electrochemistry as battery-type electrodes for ultrafast energy storage, J. Alloys Compd. 848(2020)156395. [15] J.M. Gonçalves, M.I. da Silva, H.E. Toma, L. Angnes, P.R. Martins, K. Araki, Trimetallic oxides/hydroxides as hybrid supercapacitor electrode materials:A review, J. Mater. Chem. A 8(21)(2020)10534-10570. [16] Y. Lu, J.W. Nai, X.W.D. Lou, Formation of NiCo2V2O8 yolkedouble shell spheres with enhanced lithium storage properties, Angew. Chem. Int. Ed. 57(11)(2018)2899-2903. [17] J.S. Lin, L. Yao, Z.L. Li, P.X. Zhang, W.H. Zhong, Q.H. Yuan, L.B. Deng, Hybrid hollow spheres of carbon@CoxNi1-xMoO4 as advanced electrodes for highperformance asymmetric supercapacitors, Nanoscale 11(7)(2019)3281-3291. [18] Y. Liu, M.L. Wei, C.J. Jiang, R.Y. Cui, J.J. Liu, X.R. Chang, B.W. Ren, J.C. Zhang, L.L. Huang, D.J. Zhang, Ni foam-supported ZneCoeNi ternary oxide nanosheet arrays derived from an MOF precursor with enhanced performances for supercapcitors and NieZn batteries, New J. Chem. 47(10)(2023)4730-4738. [19] Q.B. Zhang, Z.C. Liu, B.T. Zhao, Y. Cheng, L. Zhang, H.H. Wu, M.S. Wang, S.G. Dai, K.L. Zhang, D. Ding, Y.P. Wu, M.L. Liu, Design and understanding of dendritic mixed-metal hydroxide nanosheets@N-doped carbon nanotube array electrode for high-performance asymmetric supercapacitors, Energy Storage Mater. 16(2019)632-645. [20] J. Acharya, T.H. Ko, M.K. Seo, M.S. Khil, H.Y. Kim, B.S. Kim, Engineering the hierarchical heterostructures of ZneNieco nanoneedles Arrays@CoeNi-LDH nanosheets coreesheath electrodes for a hybrid asymmetric supercapacitor with high energy density and excellent cyclic stability, ACS Appl. Energy Mater. 3(8)(2020)7383-7396. [21] P. Bandyopadhyay, G. Saeed, N.H. Kim, J.H. Lee, Zinc-nickel-cobalt oxide@NiMoO4 core-shell nanowire/nanosheet arrays for solid state asymmetric supercapacitors, Chem. Eng. J. 384(2020)123357. [22] L.J. Huang, H. Huang, W. Guo, S. Wang, 3D urchin-like of Zn-Ni-Co ternary oxide microspheres as high-performance electrodes for supercapacitors, Electrochim. Acta 434(2022)141317. [23] X.H. Xia, J.P. Tu, Y.Q. Zhang, Y.J. Mai, X.L. Wang, C.D. Gu, X.B. Zhao, Freestanding Co3O4 nanowire array for high performance supercapacitors, RSC Adv. 2(5)(2012)1835. [24] W. Guo, T. Yang, L.J. Huang, S. Wang, Effects of ammonium chloride on structural stability of cobalt carbonate hydroxide and their improved electrochemical performance for supercapacitor, J. Energy Stor. 44(2021)103472. [25] T.F. Yi, L.Y. Qiu, J. Mei, S.Y. Qi, P. Cui, S.H. Luo, Y.R. Zhu, Y. Xie, Y.B. He, Porous spherical NiO@NiMoO4@PPy nanoarchitectures as advanced electrochemical pseudocapacitor materials, Sci. Bull. 65(7)(2020)546-556. [26] M.T. Ahsan, M. Usman, Z. Ali, S. Javed, R. Ali, M.U. Farooq, M.A. Akram, A. Mahmood, 3D hierarchically mesoporous zinc-nickel-cobalt ternary oxide (Zn0.6Ni0.8Co1.6O4) nanowires for high-performance asymmetric supercapacitors, Front. Chem. 8(2020)487. [27] J. Du, A.B. Chen, S.L. Hou, X.Q. Gao, Self-deposition for mesoporous carbon nanosheet with supercapacitor application, Chin. J. Chem. Eng. 55(2023)34-40. [28] T.T. Wei, P.P. Peng, Y.R. Ji, Y.R. Zhu, T.F. Yi, Y. Xie, Rational construction and decoration of Li5Cr7Ti6O25@C nanofibers as stable lithium storage materials, J. Energy Chem. 71(2022)400-410. [29] K.V. Sankar, S.C. Lee, Y. Seo, C. Ray, S. Liu, A. Kundu, S.C. Jun, Binder-free cobalt phosphate one-dimensional nanograsses as ultrahigh-performance cathode material for hybrid supercapacitor applications, J. Power Sou. 373(2018)211-219. [30] F.T. Ran, X.Q. Xu, D. Pan, Y.Y. Liu, Y.P. Bai, L. Shao, Ultrathin 2D metal-organic framework nanosheets in situ interpenetrated by functional CNTs for hybrid energy storage device, Nano-Micro Lett. 12(1)(2020)46. [31] Q.L.Wei, F.Y. Xiong, S.S. Tan, L. Huang, E.H. Lan, B. Dunn, L.Q. Mai, Energy storage:Porous one-dimensional nanomaterials:Design, fabrication and applications in electrochemical energy storage, Adv. Mater. 29(20)(2017)1602300. [32] X.J. Wu, X.Q. Wu, H. Lee, Q.L. Ye, X.X. Wang, Y.M. Zhao, L.C. Sun, Hollow Carbon@NiCo2O4 coreeshell microspheres for efficient electrocatalytic oxygen evolution, Energy Technol. 7(4)(2019)1800919. [33] S.C. Liu, X.M. Hu, J.A. Ma, M.Y. Li, H.L. Lin, S. Han, N/P codoped carbon materials with an ultrahigh specific surface area and hierarchical porous structure derived from durian peel for high-performance supercapacitors, Energy Fuels 34(11)(2020)14948-14957. [34] Y. Luo, Y.X. Yang, L.Y. Wang, L. Wang, S.H. Chen, An ultrafine ZnO/ZnNi2O4@porous carbon@covalent-organic framework for electrochemical detection of paracetamol and tert-butyl hydroquinone, J. Alloys Compd. 906(2022)164369. [35] J. Yang, J.Y. Meng, Y. Zhu, Q.Y. Liu, X.L. Zhang, X.C. Zheng, Superior capacitive performance of micropore-dominant porous carbon derived from biomass wastes, J. Energy Stor. 50(2022)104668. [36] M.S. Javed, A. Mateen, I. Hussain, S. Ali, S. Asim, A. Ahmad, E. tag Eldin, M.A. Bajaber, T. Najam, W.H. Han, The quest for negative electrode materials for Supercapacitors:2D materials as a promising family, Chem. Eng. J. 452(2023)139455. [37] Y. Zhou, Z.Y. Huang, J. Li, H.J. Liao, H.X. Wang, Y. Wang, G.L. Wu, D-ribose directed one-step fabrication of modifier-free C/NiCo2O4 nanowires with advanced electrochemical performance, Electrochim. Acta 358(2020)136926. [38] J. Acharya, T.H. Ko, J.G. Seong, M.K. Seo, M.S. Khil, H.Y. Kim, B.S. Kim, Hybrid electrodes based on Zn-Ni-Co ternary oxide nanowires and nanosheets for ultra-high-rate asymmetric supercapacitors, ACS Appl. Nano Mater. 3(9)(2020)8679-8690. [39] P.X. Ren, D.L. Wu, T. Wang, P. Zeng, D.Z. Jia, Ki2CO3-KCl acts as a molten salt flame retardant to prepare N and O doped honeycomb-like carbon in air for supercapacitors, J. Power Sou. 532(2022)231072. [40] H.R. Cai, X.L. Li, G. Li, H.C. Xia, P.J. Wang, P.H. Sun, J.J. Huang, L. Wang, Y.F. Yang, Synthesis of honeycomb-like nickel-manganese sulfide composite nanosheets as advanced battery-type electrodes for hybrid supercapacitor, Mater. Lett. 255(2019)126505. [41] Y.P. Gu, W.M. Du, X. Liu, R.Y. Gao, Y. Liu, H.R. Ma, J.L. Xu, S.H. Wei, Matching design of high-performance electrode materials with different energy-storage mechanism suitable for flexible hybrid supercapacitors, J. Alloys Compd. 844(2020)156196. [42] C.J. Raj, R. Manikandan, K.H. Yu, G. Nagaraju, M.S. Park, D.W. Kim, S.Y. Park, B. C. Kim, Engineering thermally activated NiMoO4 nanoflowers and biowaste derived activated carbon-based electrodes for high-performance supercapatteries, Inorg. Chem. Front. 7(2)(2020)369-384. [43] H.C. Tang, Y.L. Yuan, L. Meng, W.C. Wang, J.G. Lu, Y.J. Zeng, T.Q. Huang, C. Gao, Low-resistance porous nanocellular MnSe electrodes for high-performance all-solid-state battery-supercapacitor hybrid devices, Adv. Mater. Technol. 3(7)(2018)1800074. [44] D.L. Chao, P. Liang, Z. Chen, L.Y. Bai, H. Shen, X.X. Liu, X.H. Xia, Y.L. Zhao, S.V. Savilov, J.Y. Lin, Z.X. Shen, Pseudocapacitive Na-ion storage boosts high rate and areal capacity of self-branched 2D layered metal chalcogenide nanoarrays, ACS Nano 10(11)(2016)10211-10219. [45] S. Li, M.H. Hua, Y. Yang, W. Huang, X.H. Lin, L.J. Ci, J. Lou, P.C. Si, Self-supported multidimensional Ni-Fe phosphide networks with holey nanosheets for highperformance all-solid-state supercapacitors, J. Mater. Chem. A 7(29)(2019)17386-17399. [46] T.T. Wei, X. Liu, S.J. Yang, P.F. Wang, T.F. Yi, Regulating the electrochemical activity of Fe-Mn-Cu-based layer oxides as cathode materials for highperformance Na-ion battery, J. Energy Chem. 80(2023)603-613. [47] N. Zhang, X.H. Yan, J. Li, J.M. Ma, D.H.L. Ng, Biosorption-directed integration of hierarchical CoO/C composite with nickel foam for high-performance supercapacitor, Electrochim. Acta 226(2017)132-139. [48] X.P. Jiang, Z.Y. Li, G.J. Lu, N. Hu, G.P. Ji, W. Liu, X.L. Guo, D. Wu, X.J. Liu, C.H. Xu, Pores enriched CoNiO2 nanosheets on graphene hollow fibers for high performance supercapacitor-battery hybrid energy storage, Electrochim. Acta 358(2020)136857. [49] C. Sasirekha, S. Arumugam, G. Muralidharan, Green synthesis of ZnO/carbon (ZnO/C) as an electrode material for symmetric supercapacitor devices, Appl. Surf. Sci. 449(2018)521-527. [50] M.S. Xu, M.Z. Sun, S.U. Rehman, K.K. Ge, X.L. Hu, H.Z. Ding, J.C. Liu, H. Bi, Onepot synthesis of CoO-ZnO/rGO supported on Ni foam for high-performance hybrid supercapacitor with greatly enhanced cycling stability, Chin. Chem. Lett. 32(6)(2021)2027-2032. [51] W.M. Du, Y.P. Gao, Q.Q. Tian, D. Li, Z.H. Zhang, J.J. Guo, X.F. Qian, One-pot synthesis of CoNiO2 single-crystalline nanoparticles as high-performance electrode materials of asymmetric supercapacitors, J. Nanopart. Res. 17(9)(2015)368. |
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