发表刊物:Materials Today Chemistry
关键字:Metal-organic framework
Defect engineering
Grinding method
Oxidative desulfurization
摘要:The development of efficient oxidative desulfurization (ODS) catalysts is of critical practical significance for
obtaining clean fuel energy. UiO-66(Zr), as a significant member of Zr-MOFs, has garnered extensive attention
due to its advantages such as good porosity and excellent stability. The reasonable design of defective UiO-66(Zr)
just compensates for the dearth of accessible active sites of the original MOFs. In this study, we adopt a solventfree
green preparation strategy to obtain defective UiO-66(Zr), where a small amount of CeCl3⋅7H2O is added and
the unique advantage of MOFs with abundant ligand defects plays a key role in improving ODS performance. The
optimal sample can completely eliminate 1000 ppm DBT at 50 ◦C for 6 min, with a high turnover frequency
(12.33 h�� 1) and significant catalytic activity (35.33 mmol g�� 1 h�� 1), and the catalyst can maintain high activity
for multiple cycles. The excellent properties may be attributed to the high melting point of CeCl3⋅7H2O, which
leads to the presence of dangling COOH and exposed Lewis Zr sites. Experimental findings demonstrate that the
exposed Zr site is capable of generating the active species ⋅O2�� with H2O2, which effectively eliminates thiophene
sulfur compounds. In brief, this work enriches the understanding of solvent-free methods for the synthesis of
defective UiO-66(Zr) and provides an effective strategy for ODS catalyst development.
合写作者:Liang Chu,Zhaokun Wang,Xinyu Zhao,Zhiyong Zhu
第一作者:Teng Zhao
论文类型:期刊论文
通讯作者:Mu Yang,Ge Wang
卷号:47,
页面范围:102803
是否译文:否
发表时间:2025-06-07