1.Feng, Siquan; Song, Xiangen; Liu, Yang;Ding,Yunjie In situ formation of mononuclear complexes by reaction-induced atomic dispersion of supported noble metal nanoparticles NATURE COMMUNICATIONS 42(2019)227-232
2. Ren, Zhou; Lyu, Yuan; Song, Xiangen;Ding,Yunjie Dual-Ionically Bound Single-Site Rhodium on Porous Ionic Polymer Rivals Commercial Methanol Carbonylation Catalysts ADVANCED MATERIALS(2019)
3. Li, Wen-Hao; Li, Cun-Yao; Xiong, Huan-Yan ;Ding,Yunjie Constructing Mononuclear Palladium Catalysts by Precoordination/Solvothermal Polymerization: Recyclable Catalyst for Regioselective Oxidative Heck Reactions ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 58(2019)2448-2453
4. Ren, Zhou; Liu, Yang; Lyu, Yuan ;Ding,Yunjie Single-atom Rh based bipyridine framework porous organic polymer: A high active and superb stable catalyst for heterogeneous methanol carbonylation JOURNAL OF CATALYSIS 369 (2019)249-256
5. Zhao, Ziang; Lu, Wei; Feng, Chenghai ;Ding,Yunjie Increasing the activity and selectivity of Co-based FTS catalysts supported by carbon materials for direct synthesis of clean fuels by the addition of chromium JOURNAL OF CATALYSIS 370(2019)251-264
6. Yang, Ruoou; Xia, Zhaoming; Zhao, Ziang ;Ding,Yunjie Characterization of CoMn catalyst by in situ X-ray absorption spectroscopy and wavelet analysis for Fischer-Tropsch to olefins reaction JOURNAL OF ENERGY CHEMISTRY 32(2019)118-123
7. Ma, Lei; Yan, Li; Lu, An-Hui;Ding,Yunjie Effects of Ni particle size on amination of monoethanolamine over Ni-Re/SiO2 catalysts CHINESE JOURNAL OF CATALYSIS 40(2019)567-579
8. Feng, Siquan; Song, Xiangen; Ren, Zhou; Ding,Yunjie La-Stabilized, Single-Atom Ir/AC Catalyst for Heterogeneous Methanol Carbonylation to Methyl Acetate INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH 58(2019)4755-4763
9. Feng, Siquan; Lin, Xiangsong; Song, Xiangen;Ding,Yunjie Insight into the stability of binuclear Ir-La catalysts for efficient heterogeneous methanol carbonylation JOURNAL OF CATALYSIS 377(2019)400-408
10. Zhang, Yan; Lyu, Yuan; Wang, Yuqing ;Ding,Yunjie Highly active and stable porous polymer heterogenous catalysts for decomposition of formic acid to produce H-2 CHINESE JOURNAL OF CATALYSIS 40(2019)147-151
