A dual metal-organic framework strategy for synthesis of FeCo@NC bifunctional oxygen catalysts for clean energy application

doi:10.1016/j.cjche.2022.02.017

摘要/Abstract

摘要： Developing high efficient bifunctional oxygen electrocatalysts for clean energy applications like Zin-air battery (ZAB) is highly desired, because it would reduce the cost and speed up the practical application of ZAB. Here we use a dual metal–organic framework (MOF) synthesis strategy to prepare the N-doped carbon supported bimetallic FeCo nanoparticle catalysts (marked as FeCo@NC) by pyrolysis of ZnCo-ZIF/MIL-101(Fe) composite. The FeCo@NC exhibits remarkable electrocatalytic activity for ORR with half-wave potential of 0.89 V vs. the reversible hydrogen electrode (RHE) and robust durability for both ORR and OER (oxygen reduction reaction and oxygen evolution reaction), which is attributed to the generation of Fe_0.26Co_0.74 crystalline phase and mesopores due to the dual-MOF synthesis strategy. The rechargeable ZAB based on FeCo@NC air electrode shows a maximum energy density of 139.6mW·cm^-2 and excellent cyclic stability over 130 h, significantly surpassing the Pt and Ir-based ZAB. The present work provides a useful dual-MOF synthesis strategy for preparing high-performance multifunctional catalysts for ORR, OER and hydrogen evolution reaction (HER).

关键词: Metal Organic Frameworks, Zeolite imidazole framework, Bifunctional electrocatalysts, FeCo alloy, Zn-air battery

Abstract: Developing high efficient bifunctional oxygen electrocatalysts for clean energy applications like Zin-air battery (ZAB) is highly desired, because it would reduce the cost and speed up the practical application of ZAB. Here we use a dual metal–organic framework (MOF) synthesis strategy to prepare the N-doped carbon supported bimetallic FeCo nanoparticle catalysts (marked as FeCo@NC) by pyrolysis of ZnCo-ZIF/MIL-101(Fe) composite. The FeCo@NC exhibits remarkable electrocatalytic activity for ORR with half-wave potential of 0.89 V vs. the reversible hydrogen electrode (RHE) and robust durability for both ORR and OER (oxygen reduction reaction and oxygen evolution reaction), which is attributed to the generation of Fe_0.26Co_0.74 crystalline phase and mesopores due to the dual-MOF synthesis strategy. The rechargeable ZAB based on FeCo@NC air electrode shows a maximum energy density of 139.6mW·cm^-2 and excellent cyclic stability over 130 h, significantly surpassing the Pt and Ir-based ZAB. The present work provides a useful dual-MOF synthesis strategy for preparing high-performance multifunctional catalysts for ORR, OER and hydrogen evolution reaction (HER).

Key words: Metal Organic Frameworks, Zeolite imidazole framework, Bifunctional electrocatalysts, FeCo alloy, Zn-air battery

Jun Chen, Liandong Li, Liu Yang, Chang Chen, Shitao Wang, Yan Huang, Dapeng Cao. A dual metal-organic framework strategy for synthesis of FeCo@NC bifunctional oxygen catalysts for clean energy application[J]. 中国化学工程学报, 2022, 43(3): 161-168.

参考文献

[1] G.P. Peters, R.M. Andrew, J.G. Canadell, P. Friedlingstein, R.B. Jackson, J.I. Korsbakken, C. Le Quéré, A. Peregon, Carbon dioxide emissions continue to grow amidst slowly emerging climate policies, Nat. Clim. Chang. 10 (1) (2020) 3-6
[2] G.P. Hu, K.H. Smith, Y. Wu, K.A. Mumford, S.E. Kentish, G.W. Stevens, Carbon dioxide capture by solvent absorption using amino acids:A review, Chin. J. Chem. Eng. 26 (11) (2018) 2229-2237
[3] D. Broadstock, Q. Ji, S. Managi, D.Y. Zhang, Pathways to carbon neutrality:Challenges and opportunities, Resour. Conserv. Recycl. 169 (2021) 105472
[4] T.T. Sun, Y.L. Li, T.T. Cui, L.B. Xu, Y.G. Wang, W.X. Chen, P.P. Zhang, T.Y. Zheng, X.Z. Fu, S.L. Zhang, Z.D. Zhang, D.S. Wang, Y.D. Li, Engineering of coordination environment and multiscale structure in single-site copper catalyst for superior electrocatalytic oxygen reduction, Nano Lett. 20 (8) (2020) 6206-6214
[5] K. Zeng, X.J. Zheng, C. Li, J. Yan, J.H. Tian, C. Jin, P. Strasser, R.Z. Yang, Recent advances in non-noble bifunctional oxygen electrocatalysts toward large-scale production, Adv. Funct. Mater. 30 (27) (2020) 2000503
[6] S.X. Yang, Y.H. Yu, M.L. Dou, Z.P. Zhang, F. Wang, Edge-functionalized polyphthalocyanine networks with high oxygen reduction reaction activity, J. Am. Chem. Soc. 142 (41) (2020) 17524-17530
[7] Y.G. Li, H.J. Dai, Recent advances in zinc-air batteries, Chem. Soc. Rev. 43 (15) (2014) 5257-5275
[8] H.Y. Yu, L. Yang, D.J. Cheng, D.P. Cao, Zeolitic-imidazolate framework (ZIF)@ZnCo-ZIF core-shell template derived co, N-doped carbon catalysts for oxygen reduction reaction, Eng. Sci. 3(2018)54-61
[9] X.W. Peng, L. Zhang, Z.X. Chen, L.X. Zhong, D.K. Zhao, X. Chi, X.X. Zhao, L.G. Li, X.H. Lu, K. Leng, C.B. Liu, W. Liu, W. Tang, K.P. Loh, Hierarchically porous carbon plates derived from wood as bifunctional ORR/OER electrodes, Adv. Mater. 31 (16) (2019) 1900341
[10] J. Li, M. Chen, D.A.". Cullen, S. Hwang, M. Wang, B. Li, K. Liu, S. Karakalos, M. Lucero, H. Zhang, C. Lei, H. Xu, G.E.". Sterbinsky, Z. Feng, D. Su, K.L.". More, G. Wang, Z. Wang, G. Wu, Atomically dispersed manganese catalysts for oxygen reduction in proton-exchange membrane fuel cells, Nat. Catal. 1(12) (2018) 935-945
[11] S. Li, C. Cheng, X.J. Zhao, J. Schmidt, A. Thomas, Active salt/silica-templated 2D mesoporous FeCo-Nx-carbon as bifunctional oxygen electrodes for zinc-air batteries, Angew. Chem. Int. Ed. 57 (7) (2018) 1856-1862
[12] Y. Lv, L. Zhu, H. Xu, L. Yang, Z. Liu, D. Cheng, X. Cao, J. Yun, D. Cao, Core/shell template-detrived Co, N-doped carbon bifunctional electrocatalysts for rechargeable Zn-air battery, Eng. Sci. 7 (2019) 26-37
[13] X.D. Yang, F.F. Li, M.S. Xia, F. Luo, Y.S. Jiang, Investigation on the micro-structure and adsorption capacity of cellulosic biomass carbon based montmorillonite composite, Microporous Mesoporous Mater. 256 (2018) 18-24
[14] L. Yang, L. Shi, D. Wang, Y.L. Lv, D.P. Cao, Single-atom cobalt electrocatalysts for foldable solid-state Zn-air battery, Nano Energy 50 (2018) 691-698
[15] L. Gao, X.X. Li, Z.Y. Yao, H.J. Bai, Y.F. Lu, C. Ma, S.F. Lu, Z.M. Peng, J.L. Yang, A.L. Pan, H.W. Huang, Unconventional p-d hybridization interaction in PtGa ultrathin nanowires boosts oxygen reduction electrocatalysis, J. Am. Chem. Soc. 141 (45) (2019) 18083-18090
[16] X. Hu, Y. Min, L.L. Ma, J.Y. Lu, H.C. Li, W.J. Liu, J.J. Chen, H.Q. Yu, Iron-nitrogen doped carbon with exclusive presence of FexN active sites as an efficient ORR electrocatalyst for Zn-air battery, Appl. Catal. B Environ. 268 (2020) 118405
[17] S.M. Chang, H. Zhang, Z.Y. Zhang, FeCo alloy/N, S dual-doped carbon composite as a high-performance bifunctional catalyst in an advanced rechargeable zinc-air battery, J. Energy Chem. 56 (2021) 64-71
[18] M.L. Wu, M.J. Cui, L.P. Wu, S. Hwang, C.P. Yang, Q.Q. Xia, G. Zhong, H.Y. Qiao, W.T. Gan, X.Z. Wang, D. Kline, M.R. Zachariah, D. Su, T. Li, L.B. Hu, Hierarchical polyelemental nanoparticles as bifunctional catalysts for oxygen evolution and reduction reactions, Adv. Energy Mater. 10 (25) (2020) 2001119
[19] Y. Jiao, Y. Zheng, M. Jaroniec, S.Z. Qiao, Design of electrocatalysts for oxygen- and hydrogen-involving energy conversion reactions, Chem. Soc. Rev. 44 (8) (2015) 2060-2086
[20] X. Li, B. Yang, Y.Q. Wu, S.S. Lin, L. Zhang, Homogeneous Co₃O₄ film electrode with enhanced oxygen evolution electrocatalysis via surface reduction, Chin. J. Chem. Eng. 29 (2021) 221-227
[21] X.Q. Wei, X. Luo, H.J. Wang, W.L. Gu, W.W. Cai, Y.H. Lin, C.Z. Zhu, Highly-defective Fe-N-C catalysts towards pH-Universal oxygen reduction reaction, Appl. Catal. B Environ. 263 (2020) 118347
[22] S.H. Zhang, W. Xia, Q. Yang, Y. Valentino Kaneti, X.T. Xu, S.M. Alshehri, T. Ahamad, M.S.A. Hossain, J. Na, J. Tang, Y. Yamauchi, Core-shell motif construction:Highly graphitic nitrogen-doped porous carbon electrocatalysts using MOF-derived carbon@COF heterostructures as sacrificial templates, Chem. Eng. J. 396 (2020) 125154
[23] Q. Yang, Y. Jia, F.F. Wei, L.Z. Zhuang, D.J. Yang, J.Z. Liu, X. Wang, S. Lin, P. Yuan, X.D. Yao, Understanding the activity of co-N_4-xC_x in atomic metal catalysts for oxygen reduction catalysis, Angew. Chem. Int. Ed. 59 (15) (2020) 6122-6127
[24] N. Zion, D.A. Cullen, P. Zelenay, L. Elbaz, Heat-treated aerogel as a catalyst for the oxygen reduction reaction, Angew. Chem. Int. Ed. 59 (6) (2020) 2483-2489
[25] J. Wang, Z.Q. Huang, W. Liu, C.R. Chang, H.L. Tang, Z.J. Li, W.X. Chen, C.J. Jia, T. Yao, S.Q. Wei, Y.E. Wu, Y.D. Li, Design of N-coordinated dual-metal sites:A stable and active Pt-free catalyst for acidic oxygen reduction reaction, J. Am. Chem. Soc. 139 (48) (2017) 17281-17284
[26] E. Davari, D.G. Ivey, Bifunctional electrocatalysts for Zn-air batteries, Sustain. Energy Fuels 2 (1) (2018) 39-67
[27] Z. Wang, J.M. Ang, J. Liu, X.Y.D. Ma, J.H. Kong, Y.F. Zhang, T. Yan, X.H. Lu, FeNi alloys encapsulated in N-doped CNTs-tangled porous carbon fibers as highly efficient and durable bifunctional oxygen electrocatalyst for rechargeable zinc-air battery, Appl. Catal. B Environ. 263 (2020) 118344
[28] K. Yuan, D. Lützenkirchen-Hecht, L.B. Li, L. Shuai, Y.Z. Li, R. Cao, M. Qiu, X.D. Zhuang, M.K.H. Leung, Y.W. Chen, U. Scherf, Boosting oxygen reduction of single iron active sites via geometric and electronic engineering:Nitrogen and phosphorus dual coordination, J. Am. Chem. Soc. 142 (5) (2020) 2404-2412
[29] D.X. Kan, R.Q. Lian, D.S. Wang, X.L. Zhang, J. Xu, X.Y. Gao, Y. Yu, G. Chen, Y.J. Wei, Screening effective single-atom ORR and OER electrocatalysts from Pt decorated MXenes by first-principles calculations, J. Mater. Chem. A 8 (33) (2020) 17065-17077
[30] M.J. Wu, Q.L. Wei, G.X. Zhang, J.L. Qiao, M.X. Wu, J.H. Zhang, Q.J. Gong, S.H. Sun, Fe/co double hydroxide/oxide nanoparticles on N-doped CNTs as highly efficient electrocatalyst for rechargeable liquid and quasi-solid-state zinc-air batteries, Adv. Energy Mater. 8 (30) (2018) 1801836
[31] H.W. Zhang, M.Q. Zhao, H.R. Liu, S.R. Shi, Z.H. Wang, B. Zhang, L. Song, J.Z. Shang, Y. Yang, C. Ma, L.R. Zheng, Y.H. Han, W. Huang, Ultrastable FeCo bifunctional electrocatalyst on Se-doped CNTs for liquid and flexible all-solid-state rechargeable Zn-air batteries, Nano Lett. 21 (5) (2021) 2255-2264
[32] H. Jiang, J.X. Gu, X.S. Zheng, M. Liu, X.Q. Qiu, L.B. Wang, W.Z. Li, Z.F. Chen, X.B. Ji, J. Li, Defect-rich and ultrathin N doped carbon nanosheets as advanced trifunctional metal-free electrocatalysts for the ORR, OER and HER, Energy Environ. Sci. 12 (1) (2019) 322-333
[33] S. Sultan, J.N. Tiwari, J.H. Jang, A.M. Harzandi, F. Salehnia, S.J. Yoo, K.S. Kim, Fuel cells:Highly efficient oxygen reduction reaction activity of graphitic tube encapsulating nitrided coxfey alloy, Adv. Energy Mater. 8 (25) (2018) 1870115
[34] L.J. Yang, S.Z. Feng, G.C. Xu, B. Wei, L. Zhang, Electrospun MOF-based FeCo nanoparticles embedded in nitrogen-doped mesoporous carbon nanofibers as an efficient bifunctional catalyst for oxygen reduction and oxygen evolution reactions in zinc-air batteries, ACS Sustainable Chem. Eng. 7 (5) (2019) 5462-5475
[35] L. Yang, X.F. Zeng, D. Wang, D.P. Cao, Biomass-derived FeNi alloy and nitrogen-codoped porous carbons as highly efficient oxygen reduction and evolution bifunctional electrocatalysts for rechargeable Zn-air battery, Energy Storage Mater. 12 (2018) 277-283
[36] L. Yang, D. Wang, Y.L. Lv, D.P. Cao, Nitrogen-doped graphitic carbons with encapsulated CoNi bimetallic nanoparticles as bifunctional electrocatalysts for rechargeable Zn-air batteries, Carbon 144 (2019) 8-14
[37] Y. Fu, H.Y. Yu, C. Jiang, T.H. Zhang, R. Zhan, X.W. Li, J.F. Li, J.H. Tian, R.Z. Yang, NiCo alloy nanoparticles decorated on N-doped carbon nanofibers as highly active and durable oxygen electrocatalyst, Adv. Funct. Mater. 28 (9) (2018) 1705094
[38] C.L. Li, M.C. Wu, R. Liu, High-performance bifunctional oxygen electrocatalysts for zinc-air batteries over mesoporous Fe/Co-N-C nanofibers with embedding FeCo alloy nanoparticles, Appl. Catal. B Environ. 244 (2019) 150-158
[39] Z. Lei, Y.Y. Tan, Z.Y. Zhang, W. Wu, N.C. Cheng, R.Z. Chen, S.C. Mu, X.L. Sun, Defects enriched hollow porous Co-N-doped carbons embedded with ultrafine CoFe/Co nanoparticles as bifunctional oxygen electrocatalyst for rechargeable flexible solid zinc-air batteries, Nano Res. 14 (3) (2021) 868-878
[40] Y. Xiong, Y. Yang, F.J. DiSalvo, H.D. Abruña, Metal-organic-framework-derived co-Fe bimetallic oxygen reduction electrocatalysts for alkaline fuel cells, J. Am. Chem. Soc. 141 (27) (2019) 10744-10750
[41] X.P. Han, X.F. Ling, D.S. Yu, D.Y. Xie, L.L. Li, S.J. Peng, C. Zhong, N.Q. Zhao, Y.D. Deng, W.B. Hu, Atomically dispersed binary co-Ni sites in nitrogen-doped hollow carbon nanocubes for reversible oxygen reduction and evolution, Adv. Mater. 31 (49) (2019) e1905622
[42] Z.J. Zhu, H.J. Yin, Y. Wang, C.H. Chuang, L. Xing, M.Y. Dong, Y.R. Lu, G. Casillas-Garcia, Y.L. Zheng, S. Chen, Y.H. Dou, P.R. Liu, Q.L. Cheng, H.J. Zhao, Coexisting single-atomic Fe and Ni sites on hierarchically ordered porous carbon as a highly efficient ORR electrocatalyst, Adv. Mater. 32 (42) (2020) 2004670
[43] M.M. Tong, F.F. Sun, Y. Xie, Y. Wang, Y.Q. Yang, C.G. Tian, L. Wang, H.G. Fu, Operando cooperated catalytic mechanism of atomically dispersed Cu-N 4 and Zn-N 4 for promoting oxygen reduction reaction, Angew. Chem. Int. Ed. 60 (25) (2021) 14005-14012
[44] J. Li, J.X. Liu, X.Q. Gao, B.R. Goldsmith, Y.Y. Cong, Z.H. Zhai, S. Miao, Q.K. Jiang, Y. Dou, J.H. Wang, Q. Shi, X.W. Guo, D.H. Wang, H.M. Yu, W.X. Li, Y.J. Song, Nitrogen-doped graphene layers for electrochemical oxygen reduction reaction boosted by lattice strain, J. Catal. 378 (2019) 113-120
[45] X.P. Han, X.F. Ling, Y. Wang, T.Y. Ma, C. Zhong, W.B. Hu, Y.D. Deng, Generation of nanoparticle, atomic-cluster, and single-atom cobalt catalysts from zeolitic imidazole frameworks by spatial isolation and their use in zinc-air batteries, Angew. Chem. Int. Ed. 58 (16) (2019) 5359-5364
[46] S.J. Xiao, X.W. Huo, S.X. Fan, K. Zhao, S.W. Yu, X.Y. Tan, Design and synthesis of Al-MOF/PPSU mixed matrix membrane with pollution resistance, Chin. J. Chem. Eng. 29 (2021) 110-120
[47] S. Lai, L. Xu, H. Liu, S. Chen, R. Cai, L. Zhang, W. Theis, J. Sun, D. Yang, X. Zhao, Controllable synthesis of CoN₃ catalysts derived from Co/Zn-ZIF-67 for electrocatalytic oxygen reduction in acidic electrolytes, J. Mater. Chem. A 7(38) (2019) 21884-21891
[48] X.L. Xu, Z.X. Xia, X.M. Zhang, R.L. Sun, X.J. Sun, H.Q. Li, C.C. Wu, J.H. Wang, S.L. Wang, G.Q. Sun, Atomically dispersed Fe-N-C derived from dual metal-organic frameworks as efficient oxygen reduction electrocatalysts in direct methanol fuel cells, Appl. Catal. B Environ. 259 (2019) 118042
[49] Y.R. Bian, H. Wang, J.T. Hu, B.W. Liu, D. Liu, L.M. Dai, Nitrogen-rich holey graphene for efficient oxygen reduction reaction, Carbon 162 (2020) 66-73
[50] Y. Guan, Y.L. Li, S. Luo, X.Z. Ren, L.B. Deng, L.N. Sun, H.W. Mi, P.X. Zhang, J.H. Liu, Rational design of positive-hexagon-shaped two-dimensional ZIF-derived materials as improved bifunctional oxygen electrocatalysts for use as long-lasting rechargeable Zn-Air batteries, Appl. Catal. B Environ. 256 (2019) 117871
[51] J. Quílez-Bermejo, E. Morallón, D. Cazorla-Amorós, Metal-free heteroatom-doped carbon-based catalysts for ORR:A critical assessment about the role of heteroatoms, Carbon 165 (2020) 434-454
[52] S.S. Li, W.H. Chen, H.Z. Pan, Y.W. Cao, Z.Q. Jiang, X.N. Tian, X.G. Hao, T. Maiyalagan, Z.J. Jiang, FeCo alloy nanoparticles coated by an ultrathin N-doped carbon layer and encapsulated in carbon nanotubes as a highly efficient bifunctional air electrode for rechargeable Zn-air batteries, ACS Sustainable Chem. Eng. 7 (9) (2019) 8530-8541