发表刊物:Fuel
关键字:MIL-125
Bi-linker
Pyrolysis treatment
Oxidative desulfurization
Ti-OOH
摘要:Oxidative desulfurization (ODS) has garnered significant interest for its environmentally benign process. Metalorganic
frameworks (MOFs) with active sites and tunable structures show promise for sulfur oxidation. A pyrolysis
strategy targeting MIL-125 was devised to enhance active sites and create additional mesopores by
selectively removing thermally unstable ligands. The synthesized MIL-125-NH2 (10 %) treated by pyrolysis at
250 ◦C for 3 h achieved complete DBT removal from the model oil in 8 min and 96.8 % BT conversion in 15 min.
This work systematically examined the structure–activity relationship and found that MOF catalysts with poor
crystallinity were kinetically preferred due to their abundant active sites and hierarchical pores. Mechanistic
studies identified Ti-OOH as the active group responsible for sulfur oxidation, offering new insights into the ODS
system. The pyrolysis strategy is anticipated to provide a straightforward approach to developing various
defective MOFs with hierarchical pores and high activity for broad application.
合写作者:Junzhen Guo,Liang Chu,Haibin Yang,Liyan Wang,Zhaokun Wang,Zhaohui Liu
第一作者:Zhi Huang
论文类型:期刊论文
通讯作者:Mu Yang,Ge Wang
卷号:380,
页面范围:133224
是否译文:否
发表时间:2025-01-01
收录刊物:SCI