通过循环伏安法(CV)在玻碳(GC)电极表面电沉积出分布较为均匀的纳米Fe粒子,制得纳米Fe粒子修饰的GC(纳米Fe/GC)电极,再经"电荷置换"制得具有Fe核Pt壳结构的纳米粒子修饰的(纳米PtFe/GC)电极. SEM结果显示,纳米Fe/GC和纳米PtFe/GC表面粒子的形貌均呈立方体形,分布较为均匀,粒径在60 nm左右. 纳米PtFe/GC电极对亚硝酸盐的还原具有很高的电催化活性. 3种电极的电催化活性顺序依次为:纳米Fe/GC<纳米Pt/GC<纳米PtFe/GC. 相对于纳米Pt/GC电极,纳米PtFe/GC电极的起始还原电位(Ei)正移了0.14 V,还原峰电流(ip)增大了3倍.
参考文献
| [1] | Pham E K,Chang S G.Nature[J],1994,369:139 |
| [2] | Li H,Robertson D H,Chambers J Q,Hobbs D T.J Electrochem Soc[J],1988,135(5):1154 |
| [3] | Badea G E.Electrochim Acta[J],2009,54(3):996 |
| [4] | Casella I G,Gatta M.J Electroanal Chem[J],2004,568(1-2):183 |
| [5] | Kerkeni S,Lamy-Pitara E,Barbier J.Catal Today[J],2002,75(1-4):35 |
| [6] | WU Bing(吴冰).Chinese J Anal Lab(分析试验室)[J],2008,27(suppl.):303 |
| [7] | FAN Bin(范彬),HUANG Xia(黄霞).China Water Waste Water(中国给水排水)[J],2001,17(11):27 |
| [8] | Inazu K,Kitahara M,Aika K.Catal Today[J],2004,93-95:263 |
| [9] | Shoeman J J,Steyn A.Desalination[J],2003,155:15 |
| [10] | Huang C P,Wang H W,Chiu P C.Wat Res[J],1998,32:2257 |
| [11] | Taguchi S,Feliu J M.Electrochim Acta[J],2007,52(19):6023 |
| [12] | Rosca V,Duca M,Groot M T,Koper M T M.Chem Rev[J],2009,109:2209 |
| [13] | Dibyendu D,Englehardt J D,Kalu E E.J Electrochem Soc[J],2000,147(12):4573 |
| [14] | Wasmus S,Vasini E J,Krausa M,Mishima H T,Vielstich W.Electrochim Acta[J],1994,39:23 |
| [15] | Horanyi G,Rizmayer E M.J Electroanal Chem[J],1985,188:265 |
| [16] | Chen Y X,Chen S P,Chen Q S,Zhou Z Y,Sun S G.Electrochim Acta[J],2008,53(23):6938 |
| [17] | Chen Y X,Chen S P,Zhou Z Y,Tian N,Jiang Y X,Sun S G,Ding Y,Wang Z L.J Am Chem Soc[J],2009,131(31):10860 |
| [18] | Santos M C,Miwa D W,Machado S A S.Electrochem Commun[J],2000,2:692 |
| [19] | Tegou A,Papadimitriou S,Armyanov S,Valova E,Kokkinidis G,Sotiropoulos S.J Electroanal Chem[J],2008,623:187 |
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