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25.03.2023 | Original Paper

In situ coupling of MnS-MoS2 bimetallic sulfide on nickel foam by [MnMo9O32]6− platform for advanced hydrogen evolution

verfasst von: Boxin Xiao, Shifa Ullah Khan, Guannan Cui, Liming Dong, Chunjing Zhang, Qiong Wu, Haijun Pang

Erschienen in: Clean Technologies and Environmental Policy | Ausgabe 8/2023

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Abstract

Electrocatalytic water splitting is one of the green and sustainable hydrogen energy methods. However, the hydrogen evolution reaction (HER) suffers from slow kinetics due to the high energy barrier of the H–O bond in a water molecule. The key to boosting HER is to add efficient electrocatalysts. In this paper, by a facile one-pot sulphuration method, the Waugh-type polyoxometalate ((NH4)6[MnMo9O32]) is firstly used as raw materials, and uniform bimetallic sulfides are in situ coupled on high conductivity nickel foam (NF) substrates to form a series of MnS-MoS2-NF electrocatalysts. As a result, the catalysts possess ultrahigh catalytic activity for hydrogen evolution reaction in alkaline electrolyte, showing a low overpotential of 56 mV at a current density of 10 mA cm−2, which is close to that 35 mV dec−1 of the 20% Pt/C electrode. Also, Meanwhile, 24 h I–T test and scanning electron microscopy observation were carried out before and after the experiment, which proved that the material has long-term stability. This work provides a feasible strategy for the rational design and preparation of highly efficient HER electrocatalysts.

Graphical Abstract

A bimetallic electrocatalyst were synthesized via coupling of MnS-MoS2 on nickel foam, which shows ultrahigh electrocatalytic-activity for hydrogen evolution reaction.

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Literatur
Zurück zum Zitat Ahn SH, Hwang SJ, Yoo SJ, Choi I, Kim HJ, Jang JH, Nam SW, Lim TH, Lim T, Kim SK, Kim JJ (2012) Electrodeposited Ni dendrites with high activity and durability for hydrogen evolution reaction in alkaline water electrolysis. J Mater Chem 22:15153CrossRef Ahn SH, Hwang SJ, Yoo SJ, Choi I, Kim HJ, Jang JH, Nam SW, Lim TH, Lim T, Kim SK, Kim JJ (2012) Electrodeposited Ni dendrites with high activity and durability for hydrogen evolution reaction in alkaline water electrolysis. J Mater Chem 22:15153CrossRef
Zurück zum Zitat Amin MA, El-Bagoury N, Mahmoud MHH, Hesssien MM, El-Rehim SSA, Wysocka J, Ryl J (2017) Catalytic impact of alloyed Al on the corrosion behavior of Co50Ni23Ga26Al1.0 magnetic shape memory alloy and catalysis applications for efficient electrochemical H2 generation. RSC Adv 7:3635–3649CrossRef Amin MA, El-Bagoury N, Mahmoud MHH, Hesssien MM, El-Rehim SSA, Wysocka J, Ryl J (2017) Catalytic impact of alloyed Al on the corrosion behavior of Co50Ni23Ga26Al1.0 magnetic shape memory alloy and catalysis applications for efficient electrochemical H2 generation. RSC Adv 7:3635–3649CrossRef
Zurück zum Zitat Anantharaj S, Eda SR, Sakthikumar K, Kannimuthu K, Mishra S, Kundu S (2016) Recent trends and perspectives in electrochemical water splitting with an emphasis on sulfide selenide, and phosphide catalysts of Fe Co, and Ni: a review. ACS Catal 12:8069–8097CrossRef Anantharaj S, Eda SR, Sakthikumar K, Kannimuthu K, Mishra S, Kundu S (2016) Recent trends and perspectives in electrochemical water splitting with an emphasis on sulfide selenide, and phosphide catalysts of Fe Co, and Ni: a review. ACS Catal 12:8069–8097CrossRef
Zurück zum Zitat Cardoso DSP, Eugenio S, Silva TM, Santos DFM, Sequeira CAC, Montemor MF (2015) Hydrogen evolution on nanostructured Ni-Cu foams. RSC Adv 5:43456–43462CrossRef Cardoso DSP, Eugenio S, Silva TM, Santos DFM, Sequeira CAC, Montemor MF (2015) Hydrogen evolution on nanostructured Ni-Cu foams. RSC Adv 5:43456–43462CrossRef
Zurück zum Zitat Chen YJ, Ji SF, Chen C, Peng Q, Wang DS, Li YD (2018) Single-atom catalysts: synthentic strategies and electrochemical applications. Joule 2:1242–1264CrossRef Chen YJ, Ji SF, Chen C, Peng Q, Wang DS, Li YD (2018) Single-atom catalysts: synthentic strategies and electrochemical applications. Joule 2:1242–1264CrossRef
Zurück zum Zitat Ge JJ, Wei P, Wu G, Liu YD, TWLiQuWuLiZhuangHongLi YZJYTYHZBXYD (2018) Ultrathin palladium nanomesh. Angew Chem 130:3493–3496CrossRef Ge JJ, Wei P, Wu G, Liu YD, TWLiQuWuLiZhuangHongLi YZJYTYHZBXYD (2018) Ultrathin palladium nanomesh. Angew Chem 130:3493–3496CrossRef
Zurück zum Zitat Hou Y, Pang H, Xin J, Ma H, Li B, Wang X, Tan L (2020) Multi-interface-modulated CoS2@MoS2 nanoarrays derived by predesigned germanomolybdate polymer showing ulytahighly electrocatalytic activity for hydrogen evolution reaction in wide pH range. Adv Mater Interfaces 7(19):2000780. https://doi.org/10.1002/admi.202000780CrossRef Hou Y, Pang H, Xin J, Ma H, Li B, Wang X, Tan L (2020) Multi-interface-modulated CoS2@MoS2 nanoarrays derived by predesigned germanomolybdate polymer showing ulytahighly electrocatalytic activity for hydrogen evolution reaction in wide pH range. Adv Mater Interfaces 7(19):2000780. https://​doi.​org/​10.​1002/​admi.​202000780CrossRef
Zurück zum Zitat Huang YC, Ge JX, Hu J, Zhang JW, Hao J, Wei YG (2018) Nitrogen-doped porous molybdenum carbide and phosphide hybrids on a carbon matrix as highly effective electrocatalysts for the hydrogen evolution reaction. Adv Energy Mater 8:1701601CrossRef Huang YC, Ge JX, Hu J, Zhang JW, Hao J, Wei YG (2018) Nitrogen-doped porous molybdenum carbide and phosphide hybrids on a carbon matrix as highly effective electrocatalysts for the hydrogen evolution reaction. Adv Energy Mater 8:1701601CrossRef
Zurück zum Zitat Koboski KR, Nelsen EF, Hampton JR (2013) Hydrogen evolution reaction measurements of dealloyed porous NiCu. Nanoscale Res Lett 8:528CrossRef Koboski KR, Nelsen EF, Hampton JR (2013) Hydrogen evolution reaction measurements of dealloyed porous NiCu. Nanoscale Res Lett 8:528CrossRef
Zurück zum Zitat Kou Z, Wang T, Qilin G, Xiong M, Zheng L, Li X, Pan Z, Chen H, Verpoort F, Cheetham AK, Shichun M, Wang J (2019) Rational design of holey 2D nonlayered transition metal carbide/nitride heterostructure nanosheets for highly efficient water oxidation. Adv Energ Mater 9(16):1803768. https://doi.org/10.1002/aenm.201803768CrossRef Kou Z, Wang T, Qilin G, Xiong M, Zheng L, Li X, Pan Z, Chen H, Verpoort F, Cheetham AK, Shichun M, Wang J (2019) Rational design of holey 2D nonlayered transition metal carbide/nitride heterostructure nanosheets for highly efficient water oxidation. Adv Energ Mater 9(16):1803768. https://​doi.​org/​10.​1002/​aenm.​201803768CrossRef
Zurück zum Zitat Ledendecker M, Clavel G, Antonietti M, Shalom M (2015) Highly porous materials as tunable electrocatalysts for the hydrogen and oxygen evolution reaction. Adv Funct Mater 25:393–399CrossRef Ledendecker M, Clavel G, Antonietti M, Shalom M (2015) Highly porous materials as tunable electrocatalysts for the hydrogen and oxygen evolution reaction. Adv Funct Mater 25:393–399CrossRef
Zurück zum Zitat Li YD, Luo X, Chen WX, Jiang B, Ge JJ, Lin Y, Wu G, Wang XQ, Hu YM, Zhuang ZB, Wu Y, Hong X (2017) Atomically dispersed Cu-Pt dual sites alloy Pd nanorings for hydrogen evolution reaction. Angew Chem 129:16263–16267CrossRef Li YD, Luo X, Chen WX, Jiang B, Ge JJ, Lin Y, Wu G, Wang XQ, Hu YM, Zhuang ZB, Wu Y, Hong X (2017) Atomically dispersed Cu-Pt dual sites alloy Pd nanorings for hydrogen evolution reaction. Angew Chem 129:16263–16267CrossRef
Zurück zum Zitat Li JS, Zhang S, Sha JQ, Wang H, Liu MZ, Kong LX, Liu GD (2018a) Confined molybdenum phosphide in P-doped porous carbon as efficient electrocatalysts for hydrogen evolution. ACS Appl Mater Interfaces 10:17140CrossRef Li JS, Zhang S, Sha JQ, Wang H, Liu MZ, Kong LX, Liu GD (2018a) Confined molybdenum phosphide in P-doped porous carbon as efficient electrocatalysts for hydrogen evolution. ACS Appl Mater Interfaces 10:17140CrossRef
Zurück zum Zitat Li PS, Duan XY, Kuang Y, Li YP, Zhang GX, Liu W, Sun XM (2018b) Tuning electronic structure of NiFe layered double hydroxides with vanadium doping toward high efficient electrocatalytic water oxidation. Adv Energy Mater 8:1703341CrossRef Li PS, Duan XY, Kuang Y, Li YP, Zhang GX, Liu W, Sun XM (2018b) Tuning electronic structure of NiFe layered double hydroxides with vanadium doping toward high efficient electrocatalytic water oxidation. Adv Energy Mater 8:1703341CrossRef
Zurück zum Zitat Liu X, Li Y, Chen N, Deng DY, Xing XX, Wang YD (2016) Ni3S2@Ni foam 3D electrode prepared via chenmical corrosion by sodium sulfide and using in hydrazine electro-oxidation Electrochem. Acta 213:730–739 Liu X, Li Y, Chen N, Deng DY, Xing XX, Wang YD (2016) Ni3S2@Ni foam 3D electrode prepared via chenmical corrosion by sodium sulfide and using in hydrazine electro-oxidation Electrochem. Acta 213:730–739
Zurück zum Zitat Liu YQ, Li QJ, Si R, Li GD, Li W, Liu DP, Wang DJ, Sun L, Zhang Y, Zou XX (2017) Coupling sub-nanometric copper clusters with quasi-amorphous cobalts sulfide yields effcient and robust electrocatalysts for water splitting reaction. Adv Mater 29:13 Liu YQ, Li QJ, Si R, Li GD, Li W, Liu DP, Wang DJ, Sun L, Zhang Y, Zou XX (2017) Coupling sub-nanometric copper clusters with quasi-amorphous cobalts sulfide yields effcient and robust electrocatalysts for water splitting reaction. Adv Mater 29:13
Zurück zum Zitat Ma YY, Wu CX, Feng XJ, Tan HQ, Yan LK, Liu Y, Kang ZH, Wang EB, Li YG (2017) High efficient hydrogen evolution from seawater by a low-cost and stable CoMoP@C electrocatalyst superior to Pt/C energy. Environ Sci 10:788–798 Ma YY, Wu CX, Feng XJ, Tan HQ, Yan LK, Liu Y, Kang ZH, Wang EB, Li YG (2017) High efficient hydrogen evolution from seawater by a low-cost and stable CoMoP@C electrocatalyst superior to Pt/C energy. Environ Sci 10:788–798
Zurück zum Zitat Ma YY, Lang ZL, Yan LK, Wang YH, Tan HQ, Feng K, Xia YJ, Zhong J, Liu Y, Kang ZH, Li YG (2018) High efficient hydrogen evolution triggered by a multi-interfacial Ni/WC hybrid electrocatalyst energy. Environ Sci 11:2114 Ma YY, Lang ZL, Yan LK, Wang YH, Tan HQ, Feng K, Xia YJ, Zhong J, Liu Y, Kang ZH, Li YG (2018) High efficient hydrogen evolution triggered by a multi-interfacial Ni/WC hybrid electrocatalyst energy. Environ Sci 11:2114
Zurück zum Zitat Michalsky R, Zhang YJ, Peter AA (2014) Trends in the hydrogen evolution activity of metal carbide catalysts. ACS Catal 4(5):1274–1278CrossRef Michalsky R, Zhang YJ, Peter AA (2014) Trends in the hydrogen evolution activity of metal carbide catalysts. ACS Catal 4(5):1274–1278CrossRef
Zurück zum Zitat Pu ZH, Wei SY, Chen ZB, Mu SC (2016) Flexible molybdenum phosphide nanosheet array electrodes for hydrogen evolution reaction in a wide pH range. Appl Catal B Environ 196:193–198CrossRef Pu ZH, Wei SY, Chen ZB, Mu SC (2016) Flexible molybdenum phosphide nanosheet array electrodes for hydrogen evolution reaction in a wide pH range. Appl Catal B Environ 196:193–198CrossRef
Zurück zum Zitat Shen QB, Gómez-García CJ, Sun WL, Lai XY, PangMa HJHY (2021) Improving the photocatalytic H2 evolution activity of Keggin polyoxometalates anchoring copper-azole complexes. Green Chem 23:3104–3114CrossRef Shen QB, Gómez-García CJ, Sun WL, Lai XY, PangMa HJHY (2021) Improving the photocatalytic H2 evolution activity of Keggin polyoxometalates anchoring copper-azole complexes. Green Chem 23:3104–3114CrossRef
Zurück zum Zitat Tang YJ, Gao MR, Liu CH, Li SL, Jiang HL, Lan YQ, Han M, Yu SH (2015) Porous molybdenum-based hybrid catalysts for highly efficient hydrogen evolution. Angew Chem 127:13120CrossRef Tang YJ, Gao MR, Liu CH, Li SL, Jiang HL, Lan YQ, Han M, Yu SH (2015) Porous molybdenum-based hybrid catalysts for highly efficient hydrogen evolution. Angew Chem 127:13120CrossRef
Zurück zum Zitat Tang YJ, Zhang AM, Zhu HJ, Dong LZ, Wang XL, Li SL, Han M, Xu XX, Lan YQ (2018) Polyoxometalate precursors for precisely controlling synthesis of bimetallic sulfide heterostrucure through nuceation-doping competition. NANO 10:8404–8412 Tang YJ, Zhang AM, Zhu HJ, Dong LZ, Wang XL, Li SL, Han M, Xu XX, Lan YQ (2018) Polyoxometalate precursors for precisely controlling synthesis of bimetallic sulfide heterostrucure through nuceation-doping competition. NANO 10:8404–8412
Zurück zum Zitat Tedstone AA, Lewis DJ, O’Brien P (2016) Synthensis, properties and applications of transition metal-doped layered transition metal dichalcogenides. Chem Mater 28:60–65CrossRef Tedstone AA, Lewis DJ, O’Brien P (2016) Synthensis, properties and applications of transition metal-doped layered transition metal dichalcogenides. Chem Mater 28:60–65CrossRef
Zurück zum Zitat Wang KC, Zhan ZX, Gao ML, Lei T (2016) Nitrogen-doped carbon fiber/carbon paper supported Co-MoS2 as an efficient catalyst for hydrogen evolution. Mater Lett 4:2789–2793 Wang KC, Zhan ZX, Gao ML, Lei T (2016) Nitrogen-doped carbon fiber/carbon paper supported Co-MoS2 as an efficient catalyst for hydrogen evolution. Mater Lett 4:2789–2793
Zurück zum Zitat Wang GN, Chen TT, Gómez-García CJ, Zhang F, Zhang MY, Ma HY, Pang HJ, Wang XM, Tan LC (2020a) A high-capacity negative electrode for asymmetric supercapacitors based on a PMo12 coordination polymer with novel water-assisted proton channels. Small 16:2001626CrossRef Wang GN, Chen TT, Gómez-García CJ, Zhang F, Zhang MY, Ma HY, Pang HJ, Wang XM, Tan LC (2020a) A high-capacity negative electrode for asymmetric supercapacitors based on a PMo12 coordination polymer with novel water-assisted proton channels. Small 16:2001626CrossRef
Zurück zum Zitat Wang XL, Tian Y, Chang ZH, Lin HY (2020b) A series of novel polyoxometalate-based metal–bis(pyridyl-tetrazole) complexes electrocatalysts for highly efficient hydrogen evolution reaction in alkaline and acid media. ACS Sustainable Chem Eng 8:15696–15702CrossRef Wang XL, Tian Y, Chang ZH, Lin HY (2020b) A series of novel polyoxometalate-based metal–bis(pyridyl-tetrazole) complexes electrocatalysts for highly efficient hydrogen evolution reaction in alkaline and acid media. ACS Sustainable Chem Eng 8:15696–15702CrossRef
Zurück zum Zitat Xiao LF, Liu Y, Tang Z, Wu L, Zeng Y, Xu YF, He YH (2016) Porous Ni–Cr–Fe alloys as cathode materials for hydrogen evolution reaction. RSC Adv 6:51096CrossRef Xiao LF, Liu Y, Tang Z, Wu L, Zeng Y, Xu YF, He YH (2016) Porous Ni–Cr–Fe alloys as cathode materials for hydrogen evolution reaction. RSC Adv 6:51096CrossRef
Zurück zum Zitat Xiao X, Li Q, Yuan XY, Xu YX, Zheng MB, Pang H (2018) Ultrathin nanobelts as an excellent bifunctional oxygen catalyst: insight into the subtle changes in structure and synergistic effects of bimetallic metal-organic framework small. Methods 2:1800240 Xiao X, Li Q, Yuan XY, Xu YX, Zheng MB, Pang H (2018) Ultrathin nanobelts as an excellent bifunctional oxygen catalyst: insight into the subtle changes in structure and synergistic effects of bimetallic metal-organic framework small. Methods 2:1800240
Metadaten
Titel
In situ coupling of MnS-MoS2 bimetallic sulfide on nickel foam by [MnMo9O32]6− platform for advanced hydrogen evolution
verfasst von
Boxin Xiao
Shifa Ullah Khan
Guannan Cui
Liming Dong
Chunjing Zhang
Qiong Wu
Haijun Pang
Publikationsdatum
25.03.2023
Verlag
Springer Berlin Heidelberg
Erschienen in
Clean Technologies and Environmental Policy / Ausgabe 8/2023
Print ISSN: 1618-954X
Elektronische ISSN: 1618-9558
DOI
https://doi.org/10.1007/s10098-023-02511-5