用溶胶-凝胶法制备了复合固体电解质xNH4PO3-SiO2(x=1、2、4),并研究了该电解质在125~250℃范围内的导电性能以及电池性能。复合电解质的相结构分析表明,NH4PO3和SiO2在溶胶-凝胶法制备过程中没有发生化学反应;复合电解质的电导率随着NH4PO3含量增大而提高,并与NH4PO3的形态相关。电导活化能随NH4PO3含量的上升而下降,表明在sol-gel法制备的复合电解质中,起电导作用的主要是NH4PO3,而SiO2主要起支撑作用;电导率随着环境气氛中含水量的提高而提高。以湿氢气为燃料和干氧气为氧化剂,用复合电解质制备的燃料电池最大功率在250℃为4.8mW/cm2。
Proton-conductive composite electrolytes consisting of xNH4PO3-SiO2(x=1,2,4) was synthesized by a sol-gel method.X-ray diffraction investigation showed that NH4PO3 was chemically stable in the process of sol-gel preparation.The conductivity of the resulted composites was measured with impedance spectroscopy.The conductive behavior was improved by increasing the molar ratio of NH4PO3.Meanwhile the activation energy for conductivity decreased with NH4PO3 content.This indicates that NH4PO3 is responsible for the high conductivity and SiO2 serves as a supporting matrix.The proton conductivity was dramatically enhanced by increasing the water content,indicating that the effect of water is significant.Maximum power density was 4.8mW/cm2 at 250℃ when humidified hydrogen and oxygen were used as the fuel and oxidant.
参考文献
| [1] | Xia Zhengcai;Tang Chaoqun;Pan Xiaolong et al.The material research of solid oxide fuel cell[J].Journal of Functional Materials,1997,28(05):455-459. |
| [2] | Zhang Huaming;Xing Danmin;Yi Baolian .[J].Journal of Functional Materials,2004,35:17821787. |
| [3] | Truls Norby .The promise of protonics[J].Nature,2001,410:877-878. |
| [4] | Halle S M;Boysen D A;Chisholm C R I et al.Solid acids as fuel cell electrolytes[J].Nature,2001,410:a910913. |
| [5] | Kenjo T.;Ogawa Y. .PROTON CONDUCTORS BASED ON AMMONIUM POLYPHOSPHATE[J].Solid state ionics,1995(1/2):29-34. |
| [6] | Matsui T;Takeshita S;Iriyama Y et al.Protonconduc tivity of(NH^4)z TiP^4O^13-based material for intermediate temperature fuel cells[J].Electroehem Commun,2004,6(02):180182. |
| [7] | Boysen D A;Uda T;Chisholm C R I et al.High-performance solid acid fuel cells through humidity stabilization[J].Science,2004,303:68-70. |
| [8] | Cappadonia M.;Stimming U.;Niemzig O. .Preliminary study on the ionic conductivity of a polyphosphate composite[J].Solid state ionics,1999(1/4):333-337. |
| [9] | T. Uda;S. M. Haile .Thin-Membrane Solid-Acid Fuel Cell[J].Electrochemical and solid-state letters,2005(5):A245-A246. |
| [10] | Tetsuya Uda;Dane A. Boysen;Calum R. I. Chisholm .Alcohol Fuel Cells at Optimal Temperatures[J].Electrochemical and solid-state letters,2006(6):A261-A264. |
| [11] | W. Wieczorek;G. Zukowska;R. Borkowska;S. H. Chung;S. Greenbaum .A basic investigation of anhydrous proton conducting gel electrolytes[J].Electrochimica Acta,2001(10/11):1427-1438. |
| [12] | Matsuda A.;Kanzaki T.;Tadanaga K.;Tatsumisago M.;Minami T. .Proton conductivities of sol-gel derived phosphosilicate gels in medium temperature range with low humidity[J].Solid state ionics,2002(Pt.B):687-692. |
| [13] | Kim J D;Honma I .Synthesis and proton conducting properties of zireonia bridged hydroearbon/phosphotungstic acid hybrid materials[J].Electrochimica Acta,2004,49(19):31793183. |
| [14] | P. Costamagna;C. Yang;A. B. Bocarsly;S. Srinivasan .Nafion 115/zirconium phosphate composite membranes for operation of PEMFCs above 100 ℃[J].Electrochimica Acta,2002(7):1023-1033. |
| [15] | Cappadonia M.;Stimming U.;Niemzig O. .Preliminary study on the ionic conductivity of a polyphosphate composite[J].Solid state ionics,1999(1/4):333-337. |
| [16] | Toshiaki Matsui;Shinya Takeshita;Yasutoshi Iriyama .Proton-Conductive Electrolyte Consisting of NH_4PO_3/TiP_2O_7 for Intermediate-Temperature Fuel Cells[J].Journal of the Electrochemical Society,2005(1):A167-A170. |
| [17] | Xilin Chen;Xu Li;Shuai Jiang;Changrong Xia;Ulrich Stimming .Solid state protonic conductor NH{sub}4PO{sub}3-(NH{sub}4){sub}2Mn(PO{sub}3){sub}4 for intermediate temperature fuel cells[J].Electrochimica Acta,2006(28):6542-6547. |
| [18] | Uvarov N F;Isupov V P;Sharma V et al.Effect ofmorphology and particle size on the ionic conductivities of composite solid electrolytes[J].Solid State Ionics,1992,51(1 2):41-52. |
| [19] | Ponomareva VG.;Lavrova GV. .The investigation of disordered phases in nanocomposite proton electrolytes based on MeHSO4 (Me = Rb, Cs, K)[J].Solid state ionics,2001(1/4):197-204. |
| [20] | Wang SQ;Otomo J;Ogura M;Wen C;Nagamoto H;Takahashi H .Preparation and characterization of proton-conducting CsHSO4-SiO2 nanocomposite electrolyte membranes[J].Solid state ionics,2005(7/8):755-760. |
| [21] | Shen C Y;Stahlheber N E;Dyroff D R .Preparation and[J].crystalline long-chain ammonium J Am Chem Soc,1969,91(01):62. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%