[1]王学华,刘文琪,刘莉君,等.铂纳米线阵列电极对肼的电催化性能[J].武汉工程大学学报,2014,(11):48-53.[doi:103969/jissn167428692014011009]
WANG Xue hua,LIU Wen qi,LIU Li jun,et al.Electric catalytic properties of platinum nanowire arrays electrode for hydrazine[J].Journal of Wuhan Institute of Technology,2014,(11):48-53.[doi:103969/jissn167428692014011009]
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铂纳米线阵列电极对肼的电催化性能(
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WANG Xue hua,LIU Wen qi,LIU Li jun,et al.Electric catalytic properties of platinum nanowire arrays electrode for hydrazine[J].Journal of Wuhan Institute of Technology,2014,(11):48-53.[doi:103969/jissn167428692014011009]
/HTML)《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]
- 卷:
- 期数:
- 2014年11期
- 页码:
- 48-53
- 栏目:
- 材料科学与工程
- 出版日期:
- 2014-11-30
文章信息/Info
- Title:
- Electric catalytic properties of platinum nanowire arrays electrode for hydrazine
- 文章编号:
- 16742869(2014)011004806
- Keywords:
- platinum nanowire arrays electrodes; anodic aluminum oxid template; hydrazine fuel cell; electrocatalytic oxidation
- 分类号:
- O646
- 文献标志码:
- A
- 摘要:
- 以阳极氧化铝为模板,采用直流电沉积法制备了铂纳米线阵列电极。用扫描电子显微镜,X射线衍射等手段对铂纳米线阵列电极的形貌与结构进行了表征,同时应用循环伏安法和计时电流法测试研究了其对肼的电催化氧化性能.结果表明,铂能够在氧化铝模板孔洞中完整地沉积生长,且纳米线直径与氧化铝模板孔径一致,约为50 nm;铂纳米线阵列电极对肼有明显的电催化活性,且其催化活性与肼浓度及扫描速率有关,肼浓度越大,催化活性越高,当肼浓度为50 mmol/L时,电流密度可达48 mA/cm2,约是铂柱电极的3倍;扫描速率越快,电流密度越大,且与峰电流密度的平方根成正比.铂纳米线阵列电极对肼也具有良好的催化稳定性和耐受性.
- Abstract:
- Platinum (Pt) nanowires array electrodes were prepared by direct current electrodeposition in anodic aluminum oxide (AAO) template. The morphology and microstructures of the Pt/AAO were characterized by Xray diffraction and fieldemission scanning electron microscope, the electro catalytic oxidation activities of hydrazine on Pt/AAO nanowire arrays electrodes were investigated and contrasted with that of Pt column electrode by cyclic voltammetry and chronoamperometry. The results indicate that Pt is deposited in AAO completely, and the diameter of nanowires is about 50 nm, consisting with that of AAO hole; for hydrazine, Pt nanowires array electrodes have obvious electriccatalytic activity, and its catalytic activity is associated with hydrazine concentration and the scanning rate; the larger is the hydrazine concentration, the higher is the catalytic activity; when the concentration of hydrazine is 50mmol/L, the current density is about up to 48 mA/cm2, three times that of Pt column electrode; meanwhile, the faster is the scanning rate, the greater is the current density, and the scanning rate is proportional to the square root of the peak current density. Pt nanowire arrays electrodes for hydrazine also have better catalytic stability and tolerance.
参考文献/References:
[1]YU Xingwen,Peter G Pickup. Recent advances in direct formic acid fuel cell [J]. Journal of Power Sources, 2008, 182(1): 124132.[2]DU Juan, YUAN Xianxia, CHAO Yajun et al. Development of electrocatalysts for direct methanol fuel cells [J]. Raremetal Materials and Engineering, 2007, 36(7): 13091312.[3]王琪, 陆兴. 多元醇法合成的Pt2.6Sn1Ru0.4/C用作直接乙醇燃料电池高性能阳极催化剂[J]. 催化学报, 2014, 35(8): 13941401.WANG Qi, LU Xing. Polyol‐synthesized Pt2.6Sn1Ru0.4/C as a high‐performance anode catalyst for direct ethanol fuel cells [J]. Chinese Journal of Catalysis, 2014, 35(8): 13941401. (in Chinese)[4]TANG Yue, CHENG Wenlong. Nanoparticle modified electrode with size and shapedependent electrocatalytic activities [J]. Langmuir, 2013, 29(6): 31253132.[5]LIU Jun, CAO Ling. Preparation of AuPt alloy foam films and their superior electrocatalytic activity for the oxidation of formic acid[J]. ACS Appl Mater Interfaces, 2011, 3(3): 35523558.[6]王宗花, 史国玉. 直接甲醇燃料电池Pt基阳极催化剂的研究进展[J]. 化学学报,2013(71): 12251338.WANG Zonghua, SHI Guoyu. Development of direct methanol fuel cell anode catalyst Pt base [J]. Chinese Academy of Sciences, 2013(71): 12251238. (in Chinese).[7]LU Yizhong, CHEN Wei. PdAg alloy nanowires: facile onestep synthesis and high electrocatalytic activity for formic acid oxidation [J]. ACS Catal, 2012, 2, 8490.[8]LIU Dong, GUO Qiaohui. PdxCoy Nanoparticle/carbon nanofiber composites with enhanced electrocatalytic properties[J]. ACS Catal,2014, 4, 18251829.[9]Jean SanabriaChinchilla, Koichiro Asazawa. Noble metalfree hydrazine fuel cell catalysts: EPOC effect in competing chemical and electrochemical reaction pathways [J]. Am Chem Soc, 2011, 133, 54255431.[10]于文强, 易清风. Pd修饰的钛电极制备及肼的电氧化[J]. 电池工业, 2011, 16(3): 2833.YU Wenqiang, YI Qingfeng. Preparation of Pd/Ti electrode and the electrocatalytic oxidation of hydrazine on it[J]. Chinese Battery Industry, 2011, 16(3): 2833. (in Chinese)[11]GAO Hongcai, WANG Yuxi. Growth of copper nanocubes on graphene paper as freestanding electrodes for direct hydrazine fuel cells[J]. Phys Chem C 2012, 116: 77197725.[12]ZHOU Hongjun, FuRen F Fan. Observation of discrete Au nanoparticle collisions by electrocatalytic amplification: using Pt ultramicroelectrode surface modification [J]. Phys Chem Lett,2010(1): 26712674.[13]Steven E F Kleijn, Beatriz SerranoBou. Influence of hydrazineinduced aggregation on the electrochemical detection of platinum nanoparticles [J]. Langmuir, 2013, 29: 20542064.[14]王学华,李承勇.高度有序AAO孔的结构参数及其分布规律[J].材料工程,2008(10):219222.WANG Xuehua, LI Chengyong. Structural parameters and distribution rules of highly ordered AAO pores [J]. Material Engineering, 2008(10): 219222. (in Chinese)[15]郑志祥, 高作宁.亚铁氰化钾电催化氧化L半胱氨酸的电化学行为研究[J].分析科学学报,2008,24(3):307310.ZHENG Zhixiang, GAO Zuoning. Electrochemical oxidation of LCys catalyzed by K4Fe(CN)6 at glassy carbon electrode[J]. Journal of Analytical Science, 2008, 24(3): 307310. (in Chinese)
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- 备注/Memo:
- 收稿日期:20140914作者简介:王学华(1976),男,湖北襄阳人,博士,教授.研究方向:材料合成与加工.
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