Effects of synthesis methods on catalytic activities of CoOx–TiO2 for low-temperature NH3-SCR of NO

A series of cobalt doped TiO2（Co-TiO2） and Co Oxloaded TiO2（Co/TiO2） catalysts prepared by sol–gel and impregnation methods respectively were investigated on selective catalytic reduction with NH3（NH3-SCR） of NO. It was found that Co-TiO2 catalyst showed more preferable catalytic activity at low temperature range. From characterization results of XRD,TEM, Raman and FT-IR, Co species were proved to be doped into TiO2 lattice by replaced Ti atoms. After being characterized and analyzed by NH3-TPD, PL, XPS, EPR and DRIFTS, it was found that the better NH3-SCR activities of Co-TiO2 catalysts, compared with Co/TiO2 catalyst, were ascribed to the formation of more oxygen vacancies which further promoted the production of more superoxide ions（O-2）. The superoxide ions were crucial for the formation of low temperature SCR reaction intermediates（NO-3） by reacting with adsorbed NO molecule. Therefore, these aspects were responsible for the higher low temperature NH3-SCR activity of Co-TiO2 catalysts.

CoO_x改性TiO_2光催化剂的制备、优化及其光催化分解水析氢性能研究

利用热分解法制备了不同掺杂量的CoOx-TiO2系列光催化剂,并优化了制备方法.在用XRD、TEM和XPS等技术对催化剂表征的基础上,探讨了乙醇作为电子给体时CoOx改性对P25-TiO2光催化分解水析氢性能的影响.本文还利用连续瞬态电流-时间响应和循环伏安法等电化学方法,考察了CoOx-TiO2改性系列光催化剂光照条件下电流响应强度、起始光电响应特性差别及光催化析氢电位变化等光电化学性能.光催化性能实验结果表明,适当掺杂CoOx(110～400℃焙烧时最佳掺杂量约为0.4wt%Co,500℃焙烧时最佳掺杂量约为0.6～0.8wt%Co)能够显著地提高TiO2析氢光催化性能,产氢速率提高2个数量级.另外在适当温度下的热处理,能够改善催化剂光催化性能(最佳处理温度为300～400℃).光电化学性能评价结果表明,适当掺杂CoOx和适当温度下焙烧能在催化剂表面形成较多的析氢活性物种--含钴复合物,能有效增强催化剂光电流响应强度,并使得析氢光还原电位向有利于析氢方向位移.高含量掺杂CoOx会在催化剂表面形成某种碳化物物种,大量含钴复合物活性中心的出现会降低光吸收效率,增加TiO2表面光生电子-空穴复合率而使催化剂失去析氢光催化性能.

TiO2的制备及表面修饰工艺对其光电化学阴极保护性能的影响

采用连续离子层吸附反应法在TiO2表面沉积Co(OH)2,并将Co(OH)2热处理转化为CoOx的表面修饰方法制备高性能Co(OH)2/CoOx协同修饰TiO2纳米管光阳极材料。通过探讨Co(OH)2修饰次数、热处理温度以及保温时间,确定光阳极最佳性能的制备工艺条件,从光催化原理出发,阐明Co(OH)2/CoOx修饰提高光电性能机理。