Yoo Dalsan, Woo Jaegyu, Oh Seolyeong, Jeon Jong-Ki
Department of Chemical Engineering, Kongju National University, 1223-24 Cheonan-daero, Seobuk-gu, Cheonan, 31080, Korea.
J Nanosci Nanotechnol. 2020 Jul 1;20(7):4461-4465. doi: 10.1166/jnn.2020.17598.
The catalytic decomposition of hydroxylammonium nitrate (HAN) was investigated using a series of platinum and iridium supported on mesoporous materials. In this study, MMZ, KIT-6, and SBA-15 were used as supports. The effects of the active metal and the pore structure of the catalysts on decomposition of HAN solution were studied. The activity of the platinum catalysts supported on mesoporous material is much superior to that of the iridium catalysts on the same support. The Pt(10)/SBA-15 catalyst showed excellent decomposition activity and was the best among the catalysts tested here, which seemed to be because of the pore structure of Pt(10)/SBA-15. Because the pore size of Pt(10)/SBA-15 is larger than that of Pt(10)/MMZ and Pt(10)/KIT-6, it is more advantageous for diffusion of reactant and product gas. The activity of the catalyst increased as the amount of Pt loaded on the SBA-15 support increased.
使用一系列负载在介孔材料上的铂和铱,研究了硝酸羟铵(HAN)的催化分解。在本研究中,MMZ、KIT-6和SBA-15用作载体。研究了活性金属和催化剂孔结构对HAN溶液分解的影响。负载在介孔材料上的铂催化剂的活性远优于相同载体上的铱催化剂。Pt(10)/SBA-15催化剂表现出优异的分解活性,是此处测试的催化剂中最好的,这似乎是由于Pt(10)/SBA-15的孔结构。因为Pt(10)/SBA-15的孔径大于Pt(10)/MMZ和Pt(10)/KIT-6的孔径,所以对反应物和产物气体的扩散更有利。随着负载在SBA-15载体上的Pt量增加,催化剂的活性增强。