摘要
Biomass, as the most widely used carbon sources, is the main ingredient in the formation of fossil fuels. Biomass-derived novel carbons(BDNCs) have attracted much attention because of its adjustable physical/chemical properties, environmentally friendliness, and considerable economic value. Nature contributes to the biomass with bizarre microstructures with micropores, mesopores or hierarchical pores.Currently, it has been confirmed that biomass has great potential applications in energy storage devices,especially in lithium-sulfur(Li–S) batteries. In this article, the synthesis and function of BDNCs for Li–S batteries are presented, and the electrochemical effects of structural diversity, porosity and surface heteroatom doping of the carbons in Li-S batteries are discussed. In addition, the economic benefits, new trends and challenges are also proposed for further design excellent BDNCs for Li–S batteries.
Biomass, as the most widely used carbon sources, is the main ingredient in the formation of fossil fuels. Biomass-derived novel carbons(BDNCs) have attracted much attention because of its adjustable physical/chemical properties, environmentally friendliness, and considerable economic value. Nature contributes to the biomass with bizarre microstructures with micropores, mesopores or hierarchical pores.Currently, it has been confirmed that biomass has great potential applications in energy storage devices,especially in lithium-sulfur(Li–S) batteries. In this article, the synthesis and function of BDNCs for Li–S batteries are presented, and the electrochemical effects of structural diversity, porosity and surface heteroatom doping of the carbons in Li-S batteries are discussed. In addition, the economic benefits, new trends and challenges are also proposed for further design excellent BDNCs for Li–S batteries.
引文
[1]L.Jiang,L.Sheng,Z.Fan,Sci.China Mater.61(2017)133-158.
[2]M.Legarra,T.Morgan,S.Turn,L.Wang,?.Skreiberg,M.J.Antal,Energy Fuels32(2017)475-489.
[3]F.Yin,X.Liu,Y.Zhang,Y.Zhao,A.Menbayeva,Z.Bakenov,X.Wang,Solid State Sci.66(2017)44-49.
[4]X.Li,N.Fu,J.Zou,X.Zeng,Y.Chen,L.Zhou,H.Huang,Mater.Lett.209(2017)505-508.
[5]R.Fang,S.Zhao,S.Pei,X.Qian,P.X.Hou,H.M.Cheng,C.Liu,F.Li,ACS nano10(2016)8676-8682.
[6]L.Sun,M.Li,Y.Jiang,W.Kong,K.Jiang,J.Wang,S.Fan,Nano Lett.14(2014)4044-4049.
[7]T.N.Hoheisel,S.Schrettl,R.Szilluweit,H.Frauenrath,Angew.Chem.Int.Ed.49(2010)6496-6515.
[8]W.Yang,K.R.Ratinac,S.P.Ringer,P.Thordarson,J.J.Gooding,F.Braet,Angew.Chem.Int.Ed.49(2010)2114-2138.
[9]W.Tang,Y.Zhang,Y.Zhong,T.Shen,X.Wang,X.Xia,J.Tu,Mater.Res.Bull.88(2017)234-241.
[10]C.Rodriguez Correa,T.Otto,A.Kruse,Biomass Bioenergy 97(2017)53-64.
[11]Y.-P.Gao,Z.-B.Zhai,K.-J.Huang,Y.-Y.Zhang,New J.Chem.41(2017)11456-11470.
[12]O.Ioannidou,A.Zabaniotou,Renew.Sustain.Energy Rev.11(2007)1966-2005.
[13]S.Imtiaz,J.Zhang,Z.A.Zafar,S.Ji,T.Huang,J.A.Anderson,Z.Zhang,Y.Huang,Sci.China Mater.59(2016)389-407.
[14]G.Ren,S.Li,Z.-X.Fan,J.Warzywoda,Z.Fan,J.Mater.Chem.A 4(2016)16507-16515.
[15]J.Xu,H.Fan,D.Su,G.Wang,J.Alloy.Comp.747(2018)283-292.
[16]Y.Liu,G.Li,J.Fu,Z.Chen,X.Peng,Angew.Chem.Int.Ed.56(2017)6176-6180.
[17]J.Zhang,J.Xiang,Z.Dong,Y.Liu,Y.Wu,C.Xu,G.Du,Electrochim.Acta 116(2014)146-151.
[18]J.Guo,J.Zhang,F.Jiang,S.Zhao,Q.Su,G.Du,Electrochim.Acta 176(2015)853-860.
[19]X.Gu,C.Lai,F.Liu,W.Yang,Y.Hou,S.Zhang,J.Mater.Chem.A 3(2015)9502-9509.
[20]F.Li,F.Qin,K.Zhang,J.Fang,Y.Lai,J.Li,J.Power Sources 362(2017)160-167.
[21]K.Chen,D.Xue,Chinese J.Chem.35(2017)861-866.
[22]R.K.Selvan,P.Zhu,C.Yan,J.Zhu,M.Dirican,A.Shanmugavani,Y.S.Lee,X.Zhang,J.Colloid Interface Sci.513(2018)231-239.
[23]Y.X.Yin,S.Xin,Y.G.Guo,L.J.Wan,Angew.Chem.Int.Ed.52(2013)13186-13200.
[24]R.F.Service,Science(2018)1080-1081.
[25]A.Manthiram,S.H.Chung,C.Zu,Adv.Mater.27(2015)1980-2006.
[26]H.-J.Peng,J.-Q.Huang,X.-B.Cheng,Q.Zhang,Adv.Energy Mater.7(2017)1700260.
[27]G.Xu,B.Ding,J.Pan,P.Nie,L.Shen,X.Zhang,J.Mater.Chem.A 2(2014)12662-12676.
[28]R.P.Fang,S.Y.Zhao,Z.H.Sun,W.Wang,H.M.Cheng,F.Li,Adv.Mater.29(2017)1606823.
[29]T.Z.Hou,W.T.Xu,X.Chen,H.J.Peng,J.Q.Huang,Q.Zhang,Angew.Chem.Int.Ed.56(2017)8178-8182.
[30]M.Liu,X.Y.Qin,Y.B.He,B.H.Li,F.Y.Kang,J.Mater.Chem.A 5(2017)5222-5234.
[31]D.Bresser,S.Passerini,B.Scrosati,Chem.Commun.49(2013)10545-10562.
[32]A.Manthiram,Y.Fu,S.H.Chung,C.Zu,Y.S.Su,Chem.Rev.114(2014)11751-11787.
[33]K.Zhou,X.Fan,X.Wei,J.Liu,Sci.China Technol.Sci.60(2017)175-185.
[34]X.Fan,W.Sun,F.Meng,A.Xing,J.Liu,Green Energy Environ.3(2018)2-19.
[35]Z.Li,Y.Huang,L.Yuan,Z.Hao,Y.Huang,Carbon 92(2015)41-63.
[36]L.Borchardt,M.Oschatz,S.Kaskel,Chem-Eur.J.22(2016)7324-7351.
[37]Z.W.Seh,Y.Sun,Q.Zhang,Y.Cui,Chem.Soc.Rev.45(2016)5605-5634.
[38]M.F.Chen,S.X.Jiang,S.Y.Cai,X.Y.Wang,K.X.Xiang,Z.Y.Ma,P.Song,A.C.Fisher,Chem.Eng.J.313(2017)404-414.
[39]X.Chen,H.J.Peng,R.Zhang,T.Z.Hou,J.Q.Huang,B.Li,Q.Zhang,ACS Energy Lett.2(2017)795-801.
[40]G.Q.Tan,R.Xu,Z.Y.Xing,Y.F.Yuan,J.Lu,J.G.Wen,C.Liu,L.Ma,C.Zhan,Q.Liu,T.P.Wu,Z.L.Jian,R.Shahbazian-Yassar,Y.Ren,D.J.Miller,L.A.Curtiss,X.L.Ji,K.Amine,Nat.Energy 2(2017)17090.
[41]J.Liang,Z.-H.Sun,F.Li,H.-M.Cheng,Energy Storage Mater.2(2016)76-106.
[42]P.Kalyani,A.Anitha,Int.J.Hydrogen Energy 38(2013)4034-4045.
[43]P.McKendry,Bioresource Technol.(2002)37-46.
[44]C.-M.Liu,S.-Y.Wu,Renew.Energy 96(2016)1056-1062.
[45]F.Zheng,D.Liu,G.Xia,Y.Yang,T.Liu,M.Wu,Q.Chen,J.Alloys and Comp.693(2017)1197-1204.
[46]Y.Li,S.X.Chang,L.Tian,Q.Zhang,Soil Biol.Biochem.121(2018)50-58.
[47]X.Zhou,H.Zhu,Y.Wen,U.M.Goodale,X.Li,Y.You,D.Ye,H.Liang,Forest Ecol.Manag.410(2018)164-173.
[48]X.Yang,Y.Jiang,R.Su,G.Yang,B.Xue,F.Li,Colloid.Surface.A 509(2016)314-322.
[49]D.Qin,S.Chen,J.Solid State Electrochem.21(2016)1305-1312.
[50]M.Yu,R.Li,Y.Tong,Y.Li,C.Li,J.-D.Hong,G.Shi,J.Mater.Chem.A 3(2015)9609-9615.
[51]M.Xiang,Y.Wang,J.Wu,Y.Guo,H.Wu,Y.Zhang,H.Liu,Electrochim.Acta227(2017)7-16.
[52]S.Li,J.Warzywoda,S.Wang,G.Ren,Z.Fan,Carbon 124(2017)212-218.
[53]F.Qin,K.Zhang,J.Fang,Y.Lai,Q.Li,Z.Zhang,J.Li,New J.Chem.38(2014)4549-4554.
[54]Z.Sun,S.Wang,L.Yan,M.Xiao,D.Han,Y.Meng,J.Power Sources 324(2016)547-555.
[55]Y.Qu,Z.Zhang,X.Zhang,G.Ren,Y.Lai,Y.Liu,J.Li,Carbon 84(2015)399-408.
[56]Y.Zhao,X.Zhang,Y.He,N.Liu,T.Tan,C.Liang,Materials 10(2017)1158.
[57]M.Xue,C.Chen,Z.Ren,Y.Tan,B.Li,C.Zhang,Mater.Lett.209(2017)594-597.
[58]M.Xue,C.Chen,Y.Tan,Z.Ren,B.Li,C.Zhang,J.Mater.Sci.53(2018)11062-11077.
[59]Y.Jin,G.Zhou,F.Shi,D.Zhuo,J.Zhao,K.Liu,Y.Liu,C.Zu,W.Chen,R.Zhang,X.Huang,Y.Cui,Nat.Commun.8(2017)462.
[60]F.Ai,N.Liu,W.Wang,A.Wang,F.Wang,H.Zhang,Y.Huang,Electrochim.Acta 258(2017)80-89.
[61]H.Shao,F.Ai,W.Wang,H.Zhang,A.Wang,W.Feng,Y.Huang,J.Mater.Chem.A 5(2017)19892-19900.
[62]T.Yin,Y.Wang,L.He,X.Gong,Comp.Mater.Sci.138(2017)27-33.
[63]H.Luo,Y.Yang,X.Zhao,J.Zhang,Y.Chen,Electrochim.Acta 169(2015)13-21.
[64]A.H.Tchapda,V.Krishnamoorthy,Y.D.Yeboah,S.V.Pisupati,J.Anal.Appl.Pyrol.128(2017)379-396.
[65]J.C.Yu-Chuan Lin,GeoffreyA.Tompsett,PhillipR.Westmoreland,GeorgeW.Huber,J.Phys.Chem.C(2009)20097-20107.
[66]S.Inoue,Carbon 104(2016)263.
[67]B.Hu,K.Wang,L.Wu,S.H.Yu,M.Antonietti,M.M.Titirici,Adv.Mater.22(2010)813-828.
[68]M.Sevilla,J.A.Maciá-Agulló,A.B.Fuertes,Biomass Bioenergy 35(2011)3152-3159.
[69]K.Tekin,S.Karag?z,S.Bekta?s,Renew.Sustain.Energy Rev.40(2014)673-687.
[70]A.Jain,R.Balasubramanian,M.P.Srinivasan,Chem.Eng.J.283(2016)789-805.
[71]A.Jain,S.Jayaraman,R.Balasubramanian,M.P.Srinivasan,J.Mater.Chem.A 2(2014)520-528.
[72]C.Falco,J.P.Marco-Lozar,D.Salinas-Torres,E.Morallón,D.Cazorla-Amorós,M.M.Titirici,D.Lozano-Castelló,Carbon 62(2013)346-355.
[73]C.Falco,N.Baccile,M.-M.Titirici,Green Chem.13(2011)3273.
[74]T.Tay,S.Ucar,S.Karagoz,J.Hazard.Mater.165(2009)481-485.
[75]P.Williams,A.Reed,Biomass Bioenergy 30(2006)144-152.
[76]O.Sahin,C.Saka,Bioresoures Technol.136(2013)163-168.
[77]P.Pó?rolniczak,P.Nowicki,K.Wasi′nski,R.Pietrzak,M.Walkowiak,Solid State Ionics 297(2016)59-63.
[78]X.Yuan,B.Liu,J.Xu,X.Yang,K.Zeinu,X.He,L.Wu,J.Hu,J.Yang,J.Xie,RSCAdv.7(2017)13595-13603.
[79]J.Wang,S.Kaskel,J.Mater.Chem.22(2012)23710.
[80]B.Xu,Y.Chen,G.Wei,G.Cao,H.Zhang,Y.Yang,Mater.Chem.Phys.124(2010)504-509.
[81]D.Xu,C.Chen,J.Xie,B.Zhang,L.Miao,J.Cai,Y.Huang,L.Zhang,Adv.Energy Mater.6(2016)1501929.
[82]X.-l.You,L.-j.Liu,M.-y.Zhang,M.D.Walle,Y.Li,Y.-N.Liu,Mater.Lett.217(2018)167-170.
[83]Y.Zhao,L.Wang,L.Huang,M.Y.Maximov,M.Jin,Y.Zhang,X.Wang,G.Zhou,Nanomaterials 7(2017)402.
[84]J.Ren,Y.Zhou,H.Wu,F.Xie,C.Xu,D.Lin,J.Energy Chem.(2018),doi:10.1016/j.jechem.2018.01.015.
[85]A.A.Salema,F.N.Ani,Bioresource Technol.102(2011)3388-3395.
[86]J.Zhu,S.Pallavkar,M.Chen,N.Yerra,Z.Luo,H.A.Colorado,H.Lin,N.Haldolaarachchige,A.Khasanov,T.C.Ho,D.P.Young,S.Wei,Z.Guo,Chem.Commun.49(2013)258-260.
[87]C.T.Fleaca,F.Dumitrache,I.Morjan,R.Alexandrescu,I.Sandu,C.Luculescu,S.Birjega,G.Prodan,I.Stamatin,Appl.Surf.Sci.258(2012)9394-9398.
[88]C.-F.W.Jing Wang,Su Chen,Angew.Chem.Int.Ed.(2012)9297-9301.
[89]C.Barchasz,F.Molton,C.Duboc,J.C.Lepretre,S.Patoux,F.Alloin,Anal.Chem.84(2012)3973-3980.
[90]D.Zheng,X.Zhang,J.Wang,D.Qu,X.Yang,D.Qu,J.Power Sources 301(2016)312-316.
[91]Y.Yang,G.Zheng,Y.Cui,Chem.Soc.Rev.42(2013)3018-3032.
[92]E.P.Kamphaus,P.B.Balbuena,J.Phys.Chem.C 120(2016)4296-4305.
[93]Y.V.Mikhaylik,J.R.Akridge,J.Electrochem.Soc.151(2004)A1969.
[94]K.Kumaresan,Y.Mikhaylik,R.E.White,J.Electrochem.Soc.155(2008)A576.
[95]Z.W.Seh,Q.Zhang,W.Li,G.Zheng,H.Yao,Y.Cui,Chem.Sci.4(2013)3673.
[96]G.Zheng,Q.Zhang,J.J.Cha,Y.Yang,W.Li,Z.W.Seh,Y.Cui,Nano.Lett.13(2013)1265-1270.
[97]H.Zhou,D.Wang,A.Fu,X.Liu,Y.Wang,Y.Li,P.Guo,H.Li,X.S.Zhao,Mater.Sci.Eng.B 227(2018)9-15.
[98]J.Zhou,Y.Guo,C.Liang,J.Yang,J.Wang,Y.Nuli,Electrochim.Acta 273(2018)127-135.
[99]K.Yang,Q.Gao,Y.Tan,W.Tian,L.Zhu,C.Yang,Micropor.Mesopor.Mat.204(2015)235-241.
[100]H.Wu,Y.Deng,J.Mou,Q.Zheng,F.Xie,E.Long,C.Xu,D.Lin,Electrochim.Acta 242(2017)146-158.
[101]J.Xu,K.Zhou,F.Chen,W.Chen,X.Wei,X.-W.Liu,J.Liu,ACS Sustain.Chem.Eng.4(2016)666-670.
[102]M.Zheng,Q.Hu,S.Zhang,H.Tang,L.Li,H.Pang,Appl.Sci.7(2017)1036.
[103]S.H.Chung,A.Manthiram,Chem Sus Chem 7(2014)1655-1661.
[104]S.Ji,S.Imtiaz,D.Sun,Y.Xin,Q.Li,T.Huang,Z.Zhang,Y.Huang,Chem-Eur.J.23(2017)18208-18215.
[105]J.Yang,F.Chen,C.Li,T.Bai,B.Long,X.Zhou,J.Mater.Chem.A 4(2016)14324-14333.
[106]Z.Xu,Int.J.Electrochem.Sci.(2017)4515-4527.
[107]F.Li,G.Wang,P.Wang,J.Yang,K.Zhang,Y.Liu,Y.Lai,J.Electroanal.Chem.788(2017)150-155.
[108]H.Shao,B.Huang,N.Liu,W.Wang,H.Zhang,A.Wang,F.Wang,Y.Huang,J.Mater.Chem.A 4(2016)16627-16634.
[109]S.Choudhury,B.Krüner,P.Massuti-Ballester,A.Tolosa,C.Prehal,I.Grobelsek,O.Paris,L.Borchardt,V.Presser,J.Power Sources 357(2017)198-208.
[110]Y.Zhao,J.Ren,T.Tan,M.R.Babaa,Z.Bakenov,N.Liu,Y.Zhang,Nanomaterials7(2017)260.
[111]M.Xu,M.Jia,C.Mao,S.Liu,S.Bao,J.Jiang,Y.Liu,Z.Lu,Sci.Rep.6(2016)18739.
[112]L.Zhang,Y.Wang,B.Peng,W.Yu,H.Wang,T.Wang,B.Deng,L.Chai,K.Zhang,J.Wang,Green.Chem.16(2014)3926.
[113]Z.Geng,Q.Xiao,D.Wang,G.Yi,Z.Xu,B.Li,C.Zhang,Electrochim.Acta 202(2016)131-139.
[114]G.Martin,L.Rentsch,M.H?ck,M.Bertau,Energy Storage Mater.6(2017)171-179.
[115]S.Ahmed,P.A.Nelson,K.G.Gallagher,N.Susarla,D.W.Dees,J.Power Sources342(2017)733-740.
[116]X.Q.Xiu,J.L.Li,D.Hui,Appl.Mech.Mater.291-294(2013)627-631.
[117]T.Gebreegziabher,A.O.Oyedun,H.T.Luk,T.Y.G.Lam,Y.Zhang,C.W.Hui,Chem.Eng.Res.Des 92(2014)1412-1427.
[118]M.Lucian,L.Fiori,Energies 10(2017)211.
[119]Q.Z.Hong-Jie Peng,Angew.Chem.Int.Ed.(2015)11018-11020.
[120]Q.Pang,X.Liang,C.Y.Kwok,L.F.Nazar,J.Electrochem.Soc.162(2015)A2567-A2576.
[121]X.Liang,A.Garsuch,L.F.Nazar,Angew.Chem.Int.Ed.54(2015)3907-3911.
[122]J.Deng,M.Li,Y.Wang,Green Chem.18(2016)4824-4854.