用同一方法制备了Ir含量相同而载体TiO2-晶体结构不同的TiO2-载Ir(Ir/TiO2)催化剂,研究了TiO2-晶体结构对Ir/TiO2催化剂对氨氧化的电催化性能的影响,发现具有金红石结构的TiO2-载Ir(Ir/TiO2-R)催化剂对氨氧化的电催化性能远好于具有锐钛矿型结构的TiO2-载Ir(Ir/TiO2-A)催化剂.物理化学和电化学的表征揭示了Ir/TiO2-R催化剂对氨氧化的电催化性能好的可能原因归结于Ir纳米粒子在TiO2-R上的均匀分布.
参考文献
| [1] | Wakabayashi H,Kuwabara Y,Mutata H,et al.Measurement of the Expiratory Ammonia Concentration and Its Clinical Significance[J].Metab Brain Dis,1997,12 (2):161-166. |
| [2] | Timmer B,Olthuis W,van den Berg A.Ammonia Sensors and Their Applications-A Review[J].Sens Actuat B,2005,107(2):666-677. |
| [3] | Ji X B,Banks C E,Compton R G.The Electrochemical Oxidation of Ammonia at Boron-doped Diamond Electrodes Exhibits Analytically Useful Signals in Aqueous Solutions[J].Analyst,2005,130:1345-1347. |
| [4] | Wallgren K,Sotiropoulos S.Oxygen Sensors Based on a New Design Concept for Amperometric Solid State Devices[J].Sens Actuat B,1999,60:174-183. |
| [5] | Du H D,Li B H,Kang F Y,et al.Carbon Aerogel Supported Pt-Ru Catalysts for Using as the Anode of Direct Methanol Fuel Cells[J].Carbon,2007,45(2):429-435. |
| [6] | Shao Y Y,Yin G P,Zhang J,et al.Comparative Investigation of the Resistance to Electrochemical Oxidation of Carbon Black and Carbon Nanotubes in Aqueous Sulfuric Acid Solution[J].Electrochim Acta,2006,51 (26):5853-5857. |
| [7] | Auer E,Freund A,Pietsch J,et al.Carbon as Supports for Industrial Precious Metal Catalysts[J].Appl Catal A,1998,173(2):259-271. |
| [8] | Coq B,Planeix J M,Brotons V.Fullerene-based Materials as New Support Media in Heterogeneous Catalysis by Metals[J].Appl Catal A,1998,173(2):175-183. |
| [9] | Yang G W,Gao G Y,Zhao G Y,et al.Effective Adhesion of Pt Nanoparticles on Thiolated Multi-walled Carbon Nanotubes and Their Use for Fabricating Electrocatalysts[J].Carbon,2007,45 (15):3036-3041. |
| [10] | Guo J S,Sun G Q,Wang Q,et al.Carbon Nanofibers Supported Pt-Ru Electrocatalysts for Direct Methanol Fuel Cells[J].Carbon,2006,44(1):152-157. |
| [11] | Hayashi A,Notsu H,Kimijima K,et al.Preparation of Pt/Mesoporous Carbon(MC) Electrode Catalyst and Its Reactivity toward Oxygen Reduction[J].Electrochim Acta,2008,53:6117-6125. |
| [12] | Liu Y C,Qiu X P,Huang Y Q,et al.Mesocarbon Microbeads Supported Pt-Ru Catalysts for Electrochemical Oxidation of Methanol[J].J Power Sources,2002,111(1):160-164. |
| [13] | Park I S,Park K W,Choi J H,et al.Electrocatalytic Enhancement of Methanol Oxidation by Graphite Nanofibers with a High Loading of PtRu Alloy Nanoparticles[J].Carbon,2007,45(1):28-33. |
| [14] | Huang S Y,Ganesan P,Park S,et al.Development of a Titanium Dioxide-Supported Platinum Catalyst with Ultrahigh Stability for Polymer Electrolyte Membrane Fuel Cell Applications[J].J Am Chem Soc,2009,131 (39):13898-13899. |
| [15] | Chan K Y,Ding J,Ren J W,et al.Supported Mixed Metal Nanoparticles as Electrocatalysts in Low Temperature Fuel Cells[J].J Mater Chem,2004,14:505-516. |
| [16] | Guo X,Guo D J,Qiu X P,et al.Excellent Dispersion and Electrocatalytic Properties of Pt Nanoparticles Supported on Novel Porous Anatase TiO2 Nanorods[J].J Power Sources,2009,194(1):281-285. |
| [17] | Wang X M,Xia Y Y.The Influence of the Crystal Structure of TiO2 Support Material on Pd Catalysts for Formic Acid Electrooxidation[J].Electrochim Acta,2010,55 (3):851-856. |
| [18] | Usseglio S,Damin A,Scarano D,et al.(I2) n Encapsulation Inside TiO2:A Way to Tune Photoactivity in the Visible Region[J].J Am Chem Soc,2007,129(10):2822-2828. |
| [19] | Mohammadi M R,Ordikhani F,Fray D J,et al.Template-based Growth of Titanium Dioxide Nanorods by a Particulate Solelectrophoretic Deposition Process[J].Particuology,2011,9 (2):161-169. |
| [20] | Xu W F,Gao Y,Lu T H,et al.Kinetic Study of Formic Acid Oxidation on Highly Dispersed Carbon Supported Pd-TiO2 Electrocatalyst[J].Catal Lett,2009,130 (3/4):312-317. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%