Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China.
J Hazard Mater. 2011 Sep 15;192(3):1756-65. doi: 10.1016/j.jhazmat.2011.07.001. Epub 2011 Jul 8.
Co contained MOR zeolite catalysts with high Co loadings were successfully synthesized by buffered ion exchange at pH 8, and were tested for N(2)O catalytic decomposition. The high exchange level of synthesized CoMOR(x)-BIE catalysts probably benefits from the maximizing hydroxycomplexes Co(OH)(+) ion in the buffered solution, which is more preferred for the ion exchange with the zeolites. It has been found that the novel CoMOR(x)-BIE catalysts exhibit excellent catalytic activities, which is attributed to the large population of isolated Co(2+) ions on ion exchange positions. The most active CoMOR(130)-BIE catalyst shows high resistance to the inhibition of oxygen, NO and water vapor. Furthermore, stability tests indicate that the CoMOR(130)-BIE catalyst has no obvious deactivation under simulated emission conditions after reaction for more than 100 h. This extraordinary durability could be related to its high Co(2+) content and low Brönsted acidity sites in the catalyst, which facilitate the stability of active isolated Co(2+) on ion exchange positions. Thus, the CoMOR(130)-BIE catalyst shows a great potential as a cost-effective catalyst for N(2)O elimination in future applications.
采用 pH 值为 8 的缓冲离子交换法成功合成了具有高钴负载量的 Co 负载 MOR 沸石催化剂,并对其进行了 N2O 催化分解测试。合成的 CoMOR(x)-BIE 催化剂具有较高的交换水平,这可能得益于缓冲溶液中羟基配合物 Co(OH)(+)离子的最大化,这更有利于与沸石的离子交换。研究发现,新型 CoMOR(x)-BIE 催化剂具有优异的催化活性,这归因于离子交换位置上大量的孤立 Co(2+)离子。最活跃的 CoMOR(130)-BIE 催化剂对氧气、NO 和水蒸气的抑制具有很高的抵抗力。此外,稳定性测试表明,在模拟排放条件下反应 100 小时以上后,CoMOR(130)-BIE 催化剂没有明显的失活现象。这种非凡的耐久性可能与其催化剂中高 Co(2+)含量和低 Brönsted 酸性位有关,这有利于活性孤立 Co(2+)在离子交换位上的稳定性。因此,CoMOR(130)-BIE 催化剂作为一种具有成本效益的 N2O 消除催化剂,在未来的应用中具有很大的潜力。
