催化学报
催化學報
최화학보
CHINESE JOURNAL OF CATALYSIS
2011年
1期
74-79
,共6页
铂%金%二氧化钛%碳纳米管%电催化剂%直接甲醇燃料电池
鉑%金%二氧化鈦%碳納米管%電催化劑%直接甲醇燃料電池
박%금%이양화태%탄납미관%전최화제%직접갑순연료전지
platinum%gold%titanium dioxide%carbon nanotube%electrocatalyst%direct methanol fuel cell
以TiO2包覆的多壁碳纳米管(CNT@TiO2)为载体,Pt和Au为活性物质,采用沉积紫外光催化还原法制备出高活性的甲醇阳极电催化剂Pt-Au/CNT@TiO2,并采用X射线衍射、透射电镜和X射线光电子能谱对催化剂样品的物化特征进行表征.催化剂的抗毒性能用循环伏安和交流阻抗测试来表征.结果表明,粒径为2~3nm的Pt-Au纳米粒子均匀的分散在CNT@TiO2载体上.与普通化学还原方法制备的Pt-Au/CNT电催化剂相比,Pt-Au/CNT@TiO2催化剂表现出更高的抗毒性.这是因为:(1)Pt-Au合金和TiO2的相互作用使Pt-Au合金的电子密度增加,Pt-Au电子密度的增加会传递部分电子到CO的反键轨道上,从而削弱碳氧键,最终促使过氧化电位降低;(2)高价态的钛离子分解水分子从而形成吸附态的OHad物种,此物种与吸附在Pt表面的CO反应最终生成CO2.
以TiO2包覆的多壁碳納米管(CNT@TiO2)為載體,Pt和Au為活性物質,採用沉積紫外光催化還原法製備齣高活性的甲醇暘極電催化劑Pt-Au/CNT@TiO2,併採用X射線衍射、透射電鏡和X射線光電子能譜對催化劑樣品的物化特徵進行錶徵.催化劑的抗毒性能用循環伏安和交流阻抗測試來錶徵.結果錶明,粒徑為2~3nm的Pt-Au納米粒子均勻的分散在CNT@TiO2載體上.與普通化學還原方法製備的Pt-Au/CNT電催化劑相比,Pt-Au/CNT@TiO2催化劑錶現齣更高的抗毒性.這是因為:(1)Pt-Au閤金和TiO2的相互作用使Pt-Au閤金的電子密度增加,Pt-Au電子密度的增加會傳遞部分電子到CO的反鍵軌道上,從而削弱碳氧鍵,最終促使過氧化電位降低;(2)高價態的鈦離子分解水分子從而形成吸附態的OHad物種,此物種與吸附在Pt錶麵的CO反應最終生成CO2.
이TiO2포복적다벽탄납미관(CNT@TiO2)위재체,Pt화Au위활성물질,채용침적자외광최화환원법제비출고활성적갑순양겁전최화제Pt-Au/CNT@TiO2,병채용X사선연사、투사전경화X사선광전자능보대최화제양품적물화특정진행표정.최화제적항독성능용순배복안화교류조항측시래표정.결과표명,립경위2~3nm적Pt-Au납미입자균균적분산재CNT@TiO2재체상.여보통화학환원방법제비적Pt-Au/CNT전최화제상비,Pt-Au/CNT@TiO2최화제표현출경고적항독성.저시인위:(1)Pt-Au합금화TiO2적상호작용사Pt-Au합금적전자밀도증가,Pt-Au전자밀도적증가회전체부분전자도CO적반건궤도상,종이삭약탄양건,최종촉사과양화전위강저;(2)고개태적태리자분해수분자종이형성흡부태적OHad물충,차물충여흡부재Pt표면적CO반응최종생성CO2.
Multi-walled carbon nanotubes (CNT) modified using TiO2 nanoparticles (CNT@TiO2) were prepared.Then,Pt-Au/CNT@TiO2 catalysts were prepared by a deposition-UV-photoreduction method for direct methanol fuel cells.The physico-chemical properties of the catalysts were characterized by X-ray diffraction,transmission electron microscopy,and X-ray photoelectron spectroscopy.The catalytic performance was evaluated by cyclic voltammetry and electrochemical impedance spectroscopy.The Pt-Au nanoparticles were found to be uniformly deposited onto the CNT@TiO2 support and had diameters of 2-3 nm.Compared with the Pt-Au/CNT catalyst that was made using a general chemical method,Pt-Au/CNT@TiO2 exhibits higher CO-tolerance for the following reasons.Firstly,the strong interaction between the Pt-Au alloy and TiO2 leads to an increase in electron density on the metallic Pt-Au,which transfers electrons to the πco orbital of CO and weakens C-O binding while the oxidation overpotential is lowered.Secondly,the high-valence Ti ions dissociate water to form OHad (ad:adsorbed) species,which then reacts with the strongly bound COad on the Pt surface to form CO2.
