以壳聚糖为含氮碳源,正硅酸乙酯为软模板,硝酸镍为催化剂,通过简单的低温水热法及后续炭化,成功合成出掺氮介孔炭材料(NMC-1). NMC-1含有多孔结构以及氮氧等杂原子,能提高其电催化性能、双电层电容与赝电容.由于NMC-1在碱液中表现出显著的催化氧还原反应活性和具有较高的超级电容器比电容(在0.2 A/g时为252 F/g)及好的循环稳定性,因此,它有可能作为一种可再生、环保的双功能材料同时应用于燃料电池与超级电容器领域.
A N-doped mesoporous carbon (NMC-1) has been synthesized at relatively low temperature using chitosan as a nitrogen and carbon source, tetraethoxysilane as a soft template, and nickel nitrate as a catalyst. NMC-1 has a porous structure and heteroatoms such as N and O atoms, indicating that NMC-1 can contribute to electrocatalysis, electric double-layer capacitance, and pseudocapacitance. Hence, NMC-1 was used as a bifunctional material which shows effective activity as an electrocata-lyst for oxygen reduction reaction in alkaline solution, and a high specific capacitance as an ultraca-pacitor (252 F/g at 0.2 A/g). The results demonstrate that the presented NMC-1 has potential ap-plications as a renewable and environmentally friendly material in fuel cells and supercapacitors.
参考文献
| [1] | Jacobson M Z;Colella W G;Golden D M .[J].SCIENCE,2005,308:1901. |
| [2] | Lefevre M;Proietti E;Jaouen F;Dodelet J P .[J].SCIENCE,2009,324:71. |
| [3] | 张洁,唐水花,廖龙渝,郁卫飞.低温燃料电池非铂催化剂研究进展[J].催化学报,2013(06):1051-1065. |
| [4] | Peng H L;Mo Z Y;Liao S J;Liang H G Yang L J Luo F Song H Y Zhong Y L Zhang B Q .[J].Sci Rep,2013,3:1765. |
| [5] | Wu, Z.-S.;Yang, S.;Sun, Y.;Parvez, K.;Feng, X.;Müllen, K. .3D nitrogen-doped graphene aerogel-supported Fe _3O _4 nanoparticles as efficient electrocatalysts for the oxygen reduction[J].Journal of the American Chemical Society,2012(22):9082-9085. |
| [6] | Chen Z;Higgins D;Tao H S;Hsu R S Chen Z W .[J].J Phys Chem C,2009,113:21008. |
| [7] | Lü R T;Cui T X;Jun M-S;Zhang Q Cao A Y Su D S Zhang Z J Yoon S-H Miyawaki J Mochida I Kang F Y .[J].Advanced Functional Materials,2011,21:999. |
| [8] | Qu L T;Liu Y;Baek J-B;Dai L M .[J].ACS Nano,2010,4:1321. |
| [9] | Xiong, W.;Du, F.;Liu, Y.;Perez Jr., A.;Supp, M.;Ramakrishnan, T.S.;Dai, L.;Jiang, L. .3-D carbon nanotube structures used as high performance catalyst for oxygen reduction reaction[J].Journal of the American Chemical Society,2010(45):15839-15841. |
| [10] | Yan J;Meng H;Xie F Y;Yuan X L Yu W D Lin W R Ouyang W P Yuan D S .[J].Journal of Power Sources,2014,245:772. |
| [11] | Simon P;Gogotsi Y .[J].Nature Mater,2008,7:845. |
| [12] | Miller J R;Simon P .[J].SCIENCE,2008,321:651. |
| [13] | Yang X W;Cheng C;Wang Y F;Qiu L Li D .[J].SCIENCE,2013,341:534. |
| [14] | Zhu Y W;Murali S;Stoller M D;Ganesh K J Cai W W Ferreira P J Pirkle A Wallace R M Cychosz K A Thommes M Su D Stach E A Ruoff R S .[J].SCIENCE,2011,332:1537. |
| [15] | Su D S;Centi G .[J].J Energy Chem,2013,22:151. |
| [16] | Zhai Y P;Dou Y Q;Zhao D Y;Fulvio P F Mayes R T Dai S .[J].Adv Ma-ter,2011,23:4828. |
| [17] | Frackowiak E;Beguin F .[J].CARBON,2002,40:1775. |
| [18] | Kokai F;Yamda Y;Sunouchi T;Koshio A .[J].Appl Physics A,2005,81:1595. |
| [19] | Krasheninnikov A V;Banhart F .[J].Nature Mater,2007,6:723. |
| [20] | Xu SY.;Li YF.;Zou HF.;Qiu JS.;Guo Z.;Guo BC. .Carbon nanotubes as assisted matrix for laser desorption/ionization time-of-flight mass spectrometry[J].Analytical chemistry,2003(22):6191-6195. |
| [21] | Kumar M N V R .[J].Reactive & Functional Polymers,2000,46:1. |
| [22] | Rinaudo M .[J].Progress in Polymer Science,2006,31:603. |
| [23] | Yuan D S;Zeng F L;Yan J;Yuan X L Huang X J Zou W J .[J].RSC Adv,2013,3:5570. |
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