生物质衍生碳基催化剂在能源转化中的应用
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摘要
综述了生物质衍生碳基催化剂的构建策略,及在燃料电池、电解水反应领域的最新研究进展。与传统碳材料相比,生物质衍生碳基催化剂表现出更优异的电化学性能,是一种有前景的能源材料。期望为未来生物质衍生碳材料的精准设计和优化提供借鉴与方向。
This paper reviews the construction strategies of biomass-derived carbon-based catalysts and the latest research progress in fuel cell and electrolyzed water reactions. Compared with traditional carbon materials,biomassderived carbon-based catalyst exhibits superior electrochemical performance and is a promising energy material. It is expected to provide references and directions for the precise design and optimization of biomass-derived carbon-based materials.
This paper reviews the construction strategies of biomass-derived carbon-based catalysts and the latest research progress in fuel cell and electrolyzed water reactions. Compared with traditional carbon materials,biomassderived carbon-based catalyst exhibits superior electrochemical performance and is a promising energy material. It is expected to provide references and directions for the precise design and optimization of biomass-derived carbon-based materials.
引文
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[15]Qiu Y,Huo J,Jia F,et al.N-and S-doped mesoporous carbon as metal-free cathode catalysts for direct biorenewable alcohol fuel cells[J].J Mater Chem A,2015,4(1):83-95.
[16]Jin H,Xiong T,Li Y,et al.Improved electrocatalytic activity for ethanol oxidation by Pd@N-doped carbon from biomass[J].Chem Commun,2014,50(84):12637-12640.
[17]Serov A,Chan K.Recent achievements in direct ethylene glycol fuel cells(DEGFC)[J].Appl Catal B,2010,97(1/2):1-12.
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[19]Wang W,Jing W,Liu Y,et al.Supporting Pd nanoparticles on riboflavin-derived carbon:an efficient electrocatalyst for ethylene glycol oxidation[J].Ionics,2017,24:1745-1754.
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[22]Fu S,Zhu C,Song J,et al.Metal-organic framework-derived nonprecious metal nanocatalysts for oxygen reduction reaction[J].Adv Energy Mater,2017,7(19):1700363-1700381.
[23]Zhang J,Zhang C,Zhao Y,et al.Three dimensional few-layer porous carbon nanosheets towards oxygen reduction[J].Appl Catal B,2017,211:148-156.
[24]Shi Y,Zhang B.Recent advances in transition metal phosphide nanomaterials:Synthesis and applications in hydrogen evolution reaction[J].Chem Soc Rev,2016,45(6):1781-1792.
[25]黄红菱,于畅,黄华伟,等.生物质衍生炭负载金属催化剂的制备及析氧性能研究[J].新型炭材料,2017,32(6):557-563.
[26]Xie Z,Huang B B,Liu Y.Biomass derived 2D carbons via hydrothermal carbonization method as efficient bifunctional ORR/HERelectrocatalysts[J].J Mater Chem A,2017,5:23481-23488.
[27]Mulyadi A,Zhang Z,Dutzer M,et al.Facile approach for synthesis of doped carbon electrocatalyst from cellulose nanofibrils toward high-performance metal-free oxygen reduction and hydrogen evolution[J].Nano Energy,2016,32:332-346.
[28]Liu X,Amiinu I S,Liu S,et al.Transition metal/nitrogen dualdoped mesoporous graphene-like carbon nanosheets for the oxygen reduction and evolution reactions[J].Nanoscale,2016,8(27):13311-13320.
[29]Osgood H,Devaguptapu S V,Xu H,et al.Transition metal(Fe,Co,Ni,and Mn)oxides for oxygen reduction and evolution bifunctional catalysts in alkaline media[J].Nano Today,2016,11(5):601-625.
[30]Liu R,Zhang H,Zhang X,et al.Co9S8@N,P-doped porous carbon electrocatalyst using biomass-derived carbon nanodots as a precursor for overall water splitting in alkaline media[J].Rsc Advances,2017,7(31):19181-19188.
[2]Jiang L,Sheng L,Fan Z.Biomass-derived carbon materials with structural diversities and their applications in energy storage[J].Science China Mater,2017,61(2):1-26.
[3]Borghei M,Lehtonen J,Liu L,et al.Advanced biomass-derived electrocatalysts for the oxygen reduction reaction[J].Adv Mater,2017,61:1703691-1703717.
[4]王晓丹,马洪芳,刘志宝,等.多孔生物质碳材料的制备及应用研究进展[J].功能材料,2017,48(7):7035-7040.
[5]Ji T,Chen L,Mu L,et al.Green processing of plant biomass into mesoporous carbon as catalyst support[J].Chem Eng J,2016,295:301-308.
[6]Lu H,Zhao X S.Biomass-derived carbon electrode materials for supercapacitors[J].Sustain Energy Fuels,2017,1:1265-1281.
[7]Liu Y,Ruan J,Sang S,et al.Iron and nitrogen co-doped carbon derived from soybeans as efficient electro-catalysts for the oxygen reduction reaction[J].Electrochim Acta,2016,215:388-397.
[8]Seselj N,Engelbrekt C,Ding Y,et al.Tailored electron transfer pathways in aucore/ptshell-graphene nanocatalysts for fuel cells[J].Adv Energy Mater,2018,8:1702609-1702609.
[9]Munjewar S S,Thombre S B,Mallick R K.Approaches to overcome the barrier issues of passive direct methanol fuel cell-review[J].Renewable Sustainable Energy Rev,2017,67:1087-1104.
[10]Liu W,Qin X,Zhang X,et al.Wormholelike mesoporous carbon supported Pt Ru catalysts toward methanol electrooxidation[J].JEnerg Chem,2017,26(1):200-206.
[11]Borghei M,Laocharoen N,Kibena-P7ldsepp E,et al.Porous N,P-doped carbon from coconut shells with high electrocatalytic activity for oxygen reduction:Alternative to Pt-C for alkaline fuel cells[J].Appl Catal B,2017,204:394-402.
[12]Wang L,Zhao L,Yu P,et al.Silica direct evaporation:A size-controlled approach to SiC/carbon nanosheet composites as Pt catalyst supports for superior methanol electrooxidation[J].J Mater Chem A,2015,3(47):24139-24147.
[13]Karuppasamy L,Anandan S,Chen C Y,et al.Sonochemical synthesis of PdAg/RGO nanocomposite as an efficient electrocatalyst for both ethanol oxidation and oxygen reduction reaction with high CO tolerance[J].Electrocatalysis,2017,8(5):1-12.
[14]Pierozynski B,Mikolajczyk T.Enhancement of ethanol oxidation reaction on Pt(PtSn)-activated nickel foam through in situ formation of nickel oxy-hydroxide layer[J].Electrocatalysis,2017,8(3):252-260.
[15]Qiu Y,Huo J,Jia F,et al.N-and S-doped mesoporous carbon as metal-free cathode catalysts for direct biorenewable alcohol fuel cells[J].J Mater Chem A,2015,4(1):83-95.
[16]Jin H,Xiong T,Li Y,et al.Improved electrocatalytic activity for ethanol oxidation by Pd@N-doped carbon from biomass[J].Chem Commun,2014,50(84):12637-12640.
[17]Serov A,Chan K.Recent achievements in direct ethylene glycol fuel cells(DEGFC)[J].Appl Catal B,2010,97(1/2):1-12.
[18]Yang Y,Wang W,Liu Y,et al.Pd nanoparticles supported on phenanthroline modified carbon as high active electrocatalyst for ethylene glycol oxidation[J].Electrochim Acta,2015,154:1-8.
[19]Wang W,Jing W,Liu Y,et al.Supporting Pd nanoparticles on riboflavin-derived carbon:an efficient electrocatalyst for ethylene glycol oxidation[J].Ionics,2017,24:1745-1754.
[20]He N,Gong Y,Yang Y,et al.An effective Pd@Ni-B/C anode catalyst for electro-oxidation of formic acid[J].Int J Hydrogen Energy,2018,4:3216-3222.
[21]Benipal N,Qi J,Mcsweeney R F,et al.Electrocatalytic oxidation of meso-erythritol in anion-exchange membrane alkaline fuel cell on PdAg/CNT catalyst[J].J Powe Sources,2017,375:345-350.
[22]Fu S,Zhu C,Song J,et al.Metal-organic framework-derived nonprecious metal nanocatalysts for oxygen reduction reaction[J].Adv Energy Mater,2017,7(19):1700363-1700381.
[23]Zhang J,Zhang C,Zhao Y,et al.Three dimensional few-layer porous carbon nanosheets towards oxygen reduction[J].Appl Catal B,2017,211:148-156.
[24]Shi Y,Zhang B.Recent advances in transition metal phosphide nanomaterials:Synthesis and applications in hydrogen evolution reaction[J].Chem Soc Rev,2016,45(6):1781-1792.
[25]黄红菱,于畅,黄华伟,等.生物质衍生炭负载金属催化剂的制备及析氧性能研究[J].新型炭材料,2017,32(6):557-563.
[26]Xie Z,Huang B B,Liu Y.Biomass derived 2D carbons via hydrothermal carbonization method as efficient bifunctional ORR/HERelectrocatalysts[J].J Mater Chem A,2017,5:23481-23488.
[27]Mulyadi A,Zhang Z,Dutzer M,et al.Facile approach for synthesis of doped carbon electrocatalyst from cellulose nanofibrils toward high-performance metal-free oxygen reduction and hydrogen evolution[J].Nano Energy,2016,32:332-346.
[28]Liu X,Amiinu I S,Liu S,et al.Transition metal/nitrogen dualdoped mesoporous graphene-like carbon nanosheets for the oxygen reduction and evolution reactions[J].Nanoscale,2016,8(27):13311-13320.
[29]Osgood H,Devaguptapu S V,Xu H,et al.Transition metal(Fe,Co,Ni,and Mn)oxides for oxygen reduction and evolution bifunctional catalysts in alkaline media[J].Nano Today,2016,11(5):601-625.
[30]Liu R,Zhang H,Zhang X,et al.Co9S8@N,P-doped porous carbon electrocatalyst using biomass-derived carbon nanodots as a precursor for overall water splitting in alkaline media[J].Rsc Advances,2017,7(31):19181-19188.
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