Publications
Publications
116. | Jitpisut Poolwong, Felix Kracht, Eric Moinet, Yucang Liang, Valerio D’Elia and Reiner Anwander Samarium- and Ytterbium-Grafted Periodic Mesoporous Silica for Carbon Dioxide Capture and Conversion Inorganic Chemistry, 2023, 62, 17972-17984. Link |
115. | Chunming Yang, Xiang Li, and Yucang Liang Recent advances of molybdenum diselenide-based electrocatalysts: Preparation and application in the hydrogen evolution reaction Inorganic Chemistry Frontiers (Invited review), 2023, 10, 5517-5554. Link |
114. | Wangchuan Zhu, Xiang Li, Danjun Wang, Feng Fu, and Yucang Liang Advanced Photocatalytic Uranium Extraction Strategies: Progress, Challenges, and Prospects Nanomaterials (Invited review), 2023, 13, 2005. Link |
113. | Yixia Ren, Zhihu Ma, Ting Gao, and Yucang Liang Advance progress on luminescent sensing of nitroaromatics by crystalline lanthanide-organic complexes Molecules (Invited review), 2023, 28, 4481. Link |
112. | Yingying Zhao, Ju Bai, Mowen Li, Yucang Liang, Ailing Fan, Linglong Shan, and Hongxia Guo An antifouling and acid resistant loose NF membrane via synergic modification of PVP and PEI on PTFE substrate Results in Engineering, 2023, 18, 101121. Link |
111. | Wangchuan Zhu, Chuantao Wang, Wenhao Hui, Xin Huang, Chunming Yang, and Yucang Liang Intrinsically morphological effect of perovskite BaTiO3 boosting piezocatalytic uranium extraction efficiency and mechanism investigation Journal of Hazardous Materials, 2023, 455, 131578. Link |
110. | Zhaodi Huang, Shoufu Cao, Chao Feng, Youcong Li, Yucang Liang, Xunlu Li, Hao Mei, Weidong Fan, Ben Xu, Shuai Yuan, Fangna Dai, Xiaoqing Lu, Songqing Hu, and Daofeng Sun Polydopamine bridging strategy enables pseudomorphic transformation of multi-compo- nent MOFs into ultrasmall NiSe/WSe2@NC heterojunctions for enhanced alkaline hydrogen evolution Applied Catalysis B: Environmental, 2023, 334, 122769. Link |
109. | Xiang Li, Xueyan Zheng, Yanzhong Zhen, and Yucang Liang Photogenerated carrier-assisted electrocatalysts for efficient water splitting Catalysts (Invited review), 2023, 13, 712. Link |
108. | Mowen Li, Wenhai Zhang, Xuehong Zhang, Hongxia Guo, and Yucang Liang Recent advanced development of acid-resistant thin-film composite nanofiltration membrane preparation and separation performance in acidic environments |
107. | Yucang Liang, Xin Ning, Yanzhong Zhen, and Yantu Zhang Hierarchically structured and highly active palladium-loaded Al-MIL-53-linked hybrid periodic mesoporous silica catalysts for Suzuki-Miyaura cross-coupling reaction Microporous & Mesoporous Materials, 2022, 346, 112329. Link |
106. | Lihai Zhou, Chunming Yang, Wangchuan Zhu, Ran Li, Xiangxiang Pang, Yanzhong Zhen, Chuantao Wang, Loujun Gao, Feng Fu, Ziwei Gao, and Yucang Liang Boosting alkaline hydrogen evolution reaction via an unexpected dynamic evolution of molybdenum and selenium on MoSe2 electrode Advanced Energy Materials, 2022, 12, 2202367. Link |
105. | Yue Liu, Xuejian Li, Tongtong Liu, Zilong Zheng, Qiaohong Liu, Yan Wang, Zhenping Qin, Hongxia Guo, and Yucang Liang Alcohols assisted in-situ growth of MoS2 membrane on tubular ceramic substrate for nanofiltration Journal of Membrane Science, 2022, 659, 120777. Link |
104. | Mengmeng Jia, Yucang Liang, Ziyang Liu, Yue Liu, Xuehong Zhang, and Hongxia Guo Hydroxypropyl-β-cyclodextrin-incorporated Pebax composite membrane for improved permselectivity in organic solvent nanofiltration RSC Advances, 2022, 12, 16893-16902. Link |
103. | Yuyu Wang, Wenpei Kang, Xiangjun Pu, Yucang Liang, Ben Xu, Xiaoqing Lu, Daofeng Sun, and Yuliang Cao Template-directed synthesis of Co2P/MoSe2 in a N-doped carbon hollow structure for efficient and stable sodium/potassium ion storage. Nano Energy, 2022, 93, 106897. Link |
102. | Zhijie Lin, Yucang Liang, Yiming Zeng, Xuan Chen, Manmen Liu, Pinqing Dai, Jialin Chen, and Xudong Sun Morphology-tunable synthesis and formation mechanism of SnO2 particles and their application in Ag–SnO2 electrical contact materials Ceramics International, 2022, 48, 6052-6061. Link |
101. | Chunming Yang, Lihai Zhou, Chuantao Wang, Wen Duan, Le Zhang, Fuchun Zhang, Junjun Zhang, Yanzhong Zhen, Loujun Gao, Feng Fu, and Yucang Liang Large-scale synthetic Mo@(2H-1T)-MoSe2 monolithic electrode for efficient hydrogen evolution in all pH scale ranges and seawater Appl. Catal. B Environ., 2022, 304, 120993. Link |
100. | Chun Li, Menglei Zhang, Mengmeng Jia, Yuchen Ma, Zhenping Qin, Yucang Liang, and Hongxia Guo The interface polymerized nanofiltration membrane with hydroxypropyl-β-cyclo-dextrin as aqueous monomer Membrane Science and Technology, 2021, 41, 118-125. Link |
99. | Yucang Liang Recent advanced development of metal-loaded mesoporous organosilicas as catalytic nanoreactors Nanoscale Advances (invited review), 2021, 3, 6827-6868. Link |
98. | Yanzhong Zhen, Chunming Yang, Huidong Shen, Wenwen Xue, Chunrong Gu, Jinghao Feng, Yuecheng Zhang, Feng Fu, and Yucang Liang Photocatalytic performance and mechanism insights of a S-scheme g-C3N4/Bi2MoO6 heterostructure in phenol degradation and hydrogen evolution reactions under visible light Phys. Chem. Chem. Phys., 2020, 22, 26278-26288. Link |
97. | Yuping Liu, Yanzhong Zhen, Taoran Li, Frederik Bettels, Tao He, Manhua Peng, Yucang Liang, Fei Ding, and Lin Zhang High-capacity, dendrite-free, and ultrahigh-rate lithium-metal anodes based on monodisperse N-doped hollow carbon nanospheres Small, 2020, 16, 2004770 (1-9). Link |
96. | Uwe Bayer, Yucang Liang, and Reiner Anwander Cerium pyrazolates grafted onto mesoporous silica SBA-15: Reversible CO2 uptake and catalytic cycloaddition of epoxides and carbon dioxide Inorganic Chemistry, 2020, 59, 14605–14614. Link |
95. | Leilei Luo, Lorenz Bock, Yucang Liang, and Reiner Anwander Gold-loaded mesoporous organosilica-silica core-shell nanoparticles as catalytic nanoreactors European Journal of Inorganic Chemistry, 2020, 3967–3976. Link |
94. | Yahua Lu, Zhenping Qin, Naixin Wang, Hongxia Guo, Quan-Fu An, and Yucang Liang TiO2-incorporated polyelectrolyte composite membrane with transformable Hydrophilicity/hydrophobicity for Nanofiltration separation Chinese Journal of Chemical Engineering, 2020, 28, 2533–2541. Link |
93. | Zhijie Lin, Yucang Liang, Yuanhua Sang, Song Chen, Xuan Chen, Xudong Sun, Hong Liu, and Pinqiang Dai Morphology-dependent highly active microcrystalline stannous oxalate photocatalysts with selectively exposed facets and low specific surface areas Applied Surface Science, 2020, 525, 146347 (1-10). Link |
92. | Yucang Liang, Jonathan David Oettinger, Peng Zhang, and Bin Xu Ni or FeO nanocrystal-integrated hollow (solid) N-doped carbon nanospheres: preparation, characterization and electrochemical properties Nanoscale, 2020, 12, 15157-15168. Link |
91. | Lorenz Bock, Xuan Tran, Yucang Liang, Markus Kramer, Cäcilia Maichle-Mössmer, and Reiner Anwander SOMC@periodic mesoporous silica nanoparticles: Meerwein−Ponndorf−Verley reduction promoted by immobilized rare-earth-metal alkoxides Organometallics, 2020, 39, 7, 1046–1058. Link |
90. | Li Guo, Kailai Zhang, Xuanxuan Han, Qiang Zhao, Danjun Wang, Feng Fu, and Yucang Liang Highly efficient visible-light-driven photo-Fenton catalytic performance over FeOOH/Bi2WO6 composite for organic pollutant degradation Journal of Alloys and Compounds 2020, 816, 152560 (1-11). Link |
89. | Yanzhong Zhen, Jie Wang, Feng Fu, Wenhao Fu, and Yucang Liang The Novel Z-Scheme Ternary-Component Ag/AgI/α-MoO3 Catalyst with Excellent Visible-Light Photocatalytic Oxidative Desulfurization Performance for Model Fuel Nanomaterials 2019, 9, 1054; doi:10.3390/nano9071054 Link |
88. | Hongxia Guo, Shaocheng Yu, Tongtong Liu, Quan-Fu An, Xiaoyan Ren, Zhenping Qin, and Yucang Liang Counterion-Switched Reversibly Hydrophilic and Hydrophobic TiO2-Incorporated Layer-by-Layer Self-Assembled Membrane for Nanofiltration Macromolecular Materials & Engineering 2019, 304, 1900481 (1-11). Link |
87. | Li Guo, Kai Lai Zhang, Huidong Shen, Chan Wang, Qiang Zhao, Danjun Wang, Feng Fu, and Yucang Liang Magnetically recyclable Fe3O4@SiO2/Bi2WO6−xF2x photocatalyst with well-designed core-shell nanostructure for the reduction of Cr(VI) Chemical Engineering Journal, 2019, 370, 1522-1533. Link |
86. | Leilei Luo, Yucang Liang, Thomas Chassé, and Reiner Anwander Ultrafast myoglobin adsorption into double-shelled hollow mesoporous silica nanospheres Particle & Particle Systems Characterization, 2018, 1800312. Link |
85. | Leilei Luo, Yucang Liang, Egil Sev. Erichsen, and Reiner Anwander Hierarchical mesoporous organosilica–silica core–shell nanoparticles capable of controlled fungicide release Chemistry – A European Journal, 2018, 24, 7200-7209. Link |
84. | Erwan Le Roux, Yucang Liang, and Reiner Anwander Silica-grafted neodymium catalysts for the production of ultra-high molecular weight cis-1,4-polyisoprene ChemCatChem, 2018, 10, 1905-1911. (special issue: Supported Molecular Catalysts). Link |
83. | Danjun Wang, Huidong Shen, Li Guo, Chan Wang, Feng Fu, and Yucang Liang Ag/Bi2MoO6-x with Enhanced Visible-Light-Responsive Photocatalytic Activities via the Synergistic Effect of Surface Oxygen Vacancies and Surface Plasmon Applied Surface Science, 2018, 436, 536-547. Link |
82. | Yucang Liang, Susanne Wicker, Xiao Wang, Egil Severin Erichsen, and Feng Fu Organozinc Precursor-Derived Crystalline ZnO Nanoparticles: Synthesis, Characterization and Their Spectroscopic Properties Nanomaterials, 2018, 8, 22; doi: 10.3390/nano8010022. Link |
81. | Yucang Liang, and Martin Meixner Organoindium-modified monodisperse ellipsoid-/platelet-like periodic mesoporous silicas Dalton Transactions, 2017, 46, 7495-7505. Link |
80. | Carla S. Lorenz, Anna-Jorina Wicht, Leyla Guluzada, Leilei Luo, Leonie Jäger, Barbara Crone, Uwe Karst, Rita Triebskorn, Yucang Liang, Reiner Anwander, Stefan B. Haderlein, Carolin Huhn, and Heinz-R. Köhler Nano-sized Al2O3 reduces acute toxic effects of thiacloprid on the non-biting midge Chironomus riparius PloS One, 2017, 12, e0176356. Link |
79. | Leilei Luo, Yucang Liang, Egil Severvin Erichsen, and Reiner Anwander Monodisperse mesoporous silica nanoparticles of distinct topology Journal of Colloid and Interface Science, 2017, 495, 84-93. Link |
78. | Danjun Wang, Huidong Shen, Li Guo, Feng Fu, and Yucang Liang Design and construction of the sandwich-like Z-scheme multicomponent CdS/Ag/Bi2MoO6 heterostructure with enhanced photocatalytic performance in RhB photodegradation New Journal of Chemistry, 2016, 40, 8614-8624. Link |
77. | Danjun Wang, Huidong Shen, Li Guo, Chan Wang, Feng Fu, and Yucang Liang La and F co-doped Bi2MoO6 architectures with enhanced photocatalytic performance via synergistic effect RSC Advances, 2016, 6, 71052-71060. Link |
76. | Zhenping Qin, Xiaoyan Ren, Linglong Shan, Hongxia Guo, Changle Geng, Guojun Zhang, Shulan Ji, and Yucang Liang |
75. | Ning Yuan, Yucang Liang, Egil Severin Erichsen, and Reiner Anwander |
74. | Hongxia Guo, Yiwen Ma, Pengzhi Sun, Suping Cui, Zhenping Qin, and Yucang Liang |
73. | Ning Yuan, Yucang Liang, Egil Severin Erichsen, and Reiner Anwander |
72. | Hongxia Guo, Pengzhi Sun, Yucang Liang, Yiwen Ma, Zhenping Qin, and Suping Cui |
71. | Hongxia Guo, Pengzhi Sun, Zhenping Qin, Linglong Shan, Guojun Zhang, Suping Cui, and Yucang Liang |
70. | Yucang Liang, Egil S. Erichsen, and Reiner Anwander |
69. | H. Skår, J. G. Seland, Y. Liang, N. Å. Frøystein, K. W. Törnroos, and R. Anwander |
68. | Yucang Liang, and Reiner Anwander |
67. | Hjørdis Skår, Yucang Liang, Egil S. Erichsen, Reiner Anwander, and John G. Seland |
66. | Yucang Liang,* Egil Severin Erichsen, and Reiner Anwander |
65. | Yucang Liang, Egil Severin Erichsen, Chen Song, and Reiner Anwander |
64. | Erwan Le Roux, Yucang Liang, Francois Nief, and Reiner Anwander Understanding of the heterogenization of monophosphacyclopentadienyl bis(tetra- methylaluminate) lanthanum and neodymium complexes onto partially dehydroxylated SBA-15 |
63. | Thomas Deschner, Yucang Liang, and Reiner Anwander |
62. | Erwan Le Roux, Yucang Liang, Michael P. Storz, and Reiner Anwander |
61. | Erwan Le Roux, Olaf Michel, Hanne-Marthe Sommerfeldt, Yucang Liang, Cäcilia Maichle-Mössmer, Karl W. Törnroos, and Reiner Anwander |
60. | Yucang Liang, Egil Sev. Erichsen, Marianne Hanzlik, and Reiner Anwander |
59. | Yucang Liang, Egil Sev. Erichsen , Marianne Hanzlik, and Reiner Anwander |
58. | Clemens Zapilko, Yucang Liang, and Reiner Anwander |
57. | Yucang Liang, and Reiner Anwander |
56. | Clemens Zapilko, Yucang Liang, Willy Nerdal, and Reiner Anwander |
55. | Yucang Liang, and Reiner Anwander |
54. | Yucang Liang, Marianne Hanzlik, and Reiner Anwander |
53. | Yucang Liang, Marianne Hanzlik, and Reiner Anwander |
52. | Yucang Liang, Marianne Hanzlik, and Reiner Anwander |
51. | Shaofang Lu, Fuxia Sun, Yongbao Zhu, Ying Peng, Yucang Liang, Junqian Li, Zixiang Huang, Qiangjin Wu, and Canzhong Lu |
50. | Yucang Liang, and Reiner Anwander |
49. | Hongbin Xu, Yucang Liang, Zhongmin Su, Yahui Zhao, Kuizhan Shao, Hongjun Zhang, and Shumei Yue |
48. | Shaofang Lu, Yongbao Zhu, Yucang Liang, Rongmin Yu, Xiaoying Huang, Fuxia Sun, Qiangjin Wu, and Zixiang Huang |
47. | Daofeng Sun, Rong Cao, Wenhua Bi, Jiabao Weng, Maochun Hong, and Yucang Liang |
46. | Hongbin Xu, Zhongmin Su, Kuizhan Shao Yahui Zhao, Yan Xing, Yucang Liang, Hengjun Zhang, and Dongxia Zhu |
45. | Yucang Liang, Maochun Hong, Rong Cao, Weiping Su, Yingjun Zhao, and Jiabao Weng |
44. | Yucang Liang, Rong Cao, Maochun Hong, Daofeng Sun, Yingjun Zhao, Jiabao Weng, and Ruihu Wang |
43. | Yucang Liang, Shaofang Lu, Zixiang Huang, and Qiangjin Wu |
42. | Yucang Liang, Maochun Hong, Jiacheng Liu, and Rong Cao |
41. | Yucang Liang, Maochun, Hong, Rong Cao, Jiabao Weng, Daofeng Sun, and Weiping Su |
40. | Daofeng Sun, Rong Cao, Yucang Liang, Qian Shi, and Maochun Hong |
39. | Daofeng Sun, Rong Cao, Yucang Liang, Maochun Hong, Yingjun Zhao, and Jiabao Weng |
38. | Jiabao Weng, Maochun Hong, Yucang Liang, Qian Shi, and Rong Cao |
37. | Zhirong Chen, Jianhui Li, and Yucang Liang |
36. | Rong Cao, Daofeng Sun, Yucang Liang, Maochun Hong, Kazuyuki Tatsumi, and Qian Shi |
35. | Daofeng Sun, Rong Cao, Yucang Liang, and Maochun Hong |
34. | Junhua Luo, Maochun Hong, Rong Cao, Yucang Liang, Yingjun Zhao, Ruihu Wang, and Jiabao Weng |
33. | Junhua Luo, Maochun Hong, Qian Shi, Yucang Liang, Ying Jun Zhao, Ruihu Wang, Rong Cao, and Jiabao Weng |
32. | Ruihu Wang, Maochun Hong, Weiping Su, Yucang Liang, Rong Cao, Yingjun Zhao, and Jiabao Weng |
31. | Weiping Su, Maochun Hong, Jiabao Weng, Yucang Liang, Yingjun Zhao, Rong Cao, Zhongyuan Zhou, and Albert S.C. Chan |
30. | Daofeng Sun, Rong Cao, Jiabao Weng, Maochun Hong, and Yucang Liang |
29. | Xing Li, Rong Cao, Daofeng Sun, Qian Shi, Maochun Hong, and Yucang Liang |
28. | Shengmin Hu, Jingcao Dai, Xintao Wu, Liming Wu, Chuanpeng Cui, Zhiyong Fu, Maochun Hong, and Yucang Liang |
27. | Yucang Liang, Maochun Hong, Weiping Su, Rong Cao, and Jiutong Chen |
26. | Yucang Liang, Maochun Hong, Rong Cao, and Jiabao Weng |
25. | Yucang Liang, Maochun Hong, Rong Cao, Jiabao Weng, and Weiping Su |
24. | Yucang Liang, Maochun Hong, Rong Cao, and Qian Shi |
23. | Yucang Liang, Rong Cao, Maochun Hong, Qian Shi, Daofeng Sun, and Jiabao Weng |
22. | Yucang Liang, Maochun Hong, and Rong Cao |
21. | Yucang Liang, Maochun Hong, Rong Cao, and Jiabao Weng |
20. | Yucang Liang, Maochun Hong, Rong Cao, Weiping Su, Yingjun Zhao, and Jiabao Weng |
19. | Yucang Liang, Maochun Hong, Weiping Su, Rong Cao, and Wenjian Zhang |
18. | Yuanba Cai, and Yucang Liang |
17. | Yingjun Zhao, Maochun Hong, Yucang Liang, Weiping Su, Rong Cao, Zhongyuan Zhou, and Albert S. C. Chan |
16. | Qian Shi, Maolin Hu, Rong Cao, Yucang Liang, and Maochun Hong |
15. | Ruihu Wang, Maochun Hong, Yucang Liang, and Rong Cao |
14. | Daofeng Sun, Rong Cao, Yucang Liang, and Maochun Hong |
13. | Daofeng Sun, Rong Cao, Yucang Liang, Weiping Su, and Maochun Hong |
12. | Daofeng Sun, Rong Cao, Yucang Liang, Maochun Hong, and Weiping Su |
11. | Yingjun Zhao, Maochun Hong, Yucang Liang, Rong Cao, Wenjie Li, Jiabao Weng, and Shaofang Lu |
10. | Junhua Luo, Maochun Hong, Yucang Liang, and Rong Cao |
9. | Junhua Luo, Maochun Hong, Yucang Liang, and Rong Cao |
8. | Qian Shi, Rong Cao , Daofeng Sun, Maochun Hong, and Yucang Liang |
7. | Ruihu Wang, Maochun Hong, Weiping Su, Yucang Liang, Rong Cao, Yingjun Zhao, and Jiabao Weng |
6. | Ruihu Wang, Maochun Hong, Wieping Su, Yucang Liang, Rong Cao, Yingjun Zhao, and Jiabao Weng |
5. | Ruihu Wang, Maochun Hong, Jiabao Weng, Rong Cao, Yucang Liang, and Yingjun Zhao |
4. | Yucang Liang, Rong Cao, Weiping Su, Maochun Hong, and Wenjian Zhang |
3. | Yucang Liang, Rong Cao, Weiping Su, and Maochun Hong |
2. | Daofeng Sun, Rong Cao, Yucang Liang, Maochun Hong, Weiping Su, and Jiabao Weng |
1. | Yucang Liang, Shaofang Lu, Qiangjin Wu, Xiaoying Huang, and Jianquan Huang |
Poster Presentations
26. | Yucang Liang November 9-11, Fuzhou, China, 2018 (Invited Talk). |
25. | Yucang Liang Synthesis, Surface Modification and Applications of Periodic Mesoporous (Organo)Silicas: From Bulk to Monodisperse Uniform Nanostructured Materials |
24. | Jie Wang, Yanzhong Zhen, Feng Fu, Yingzheng Zhang, Jinhao Feng, Yucang Liang A Novel Z-Scheme Multicomponent AgI/Ag/α-MoO3 with Enhanced Visible-Light Photocatalytic Activity for the Degradation of Thiophene 30th Chinese-German Chemical Association Annual Conference April 19-22, Berlin, Germany, 2018 (Poster). |
23. | Yucang Liang Lanthanide Complex-Embedded/ Incorporated Periodic Mesoporous Silica Nanospheres with Tunable Photoluminescent Properties 28th Chinese-German Chemical Association Annual Conference |
22. | Yucang Liang, Egil Sev. Erichsen, David Degler, Xiao Wang, Alfred J. Meixner |
21. | Yucang Liang and Egil Sev. Erichsen Metal-Organic Framework-Linked Hybrid Periodic Mesoporous Silica via Functional Carboxylic Acid Groups |
20. | N. Yuan, Y. Liang and R. Anwander A Rare-Earth Metal Coordinated Funktional Polymer Trapped in Hollow Periodic Mesoporous Silica Spheres 25. Tage der Seltenen Erden, December 5-7, Stuttgart, 2013 Link |
19. | Yucang Liang, Egil Sev. Erichsen, Reiner Anwander Tailoring the morphology and mesostructure of double-shelled silica spheres |
18. | Yucang Liang, Egil Sev. Erichsen, Thomas Deschner, Reiner Anwander Crystalline Metal Oxide Layer via Layer-by-Layer Molecular Grafted onto Large-Pore Cubic Periodic Mesoporous Silica |
17. | Sonja König, Yucang Liang, Egil Sev. Erichsen, Reiner Anwander Manganese, Chromium, and Cobalt Surface-Functionalized Cubic Mesoporous Silica KIT-6 and MCM-48 |
16. | André M. Bienfait, Yucang Liang, Reiner Anwander Cobalt/Rare-Earth Metal-Multilayer-Grafted Periodic Mesoporous Silica KIT-6 |
15. | Hjørdis Skår, Yucang Liang, N. Å. Frøystein, Reiner Anwnder Gadolinium-functionalized Periodic Mesoporous Silica for Magnetic Resonance XXI. Tage der Seltenen Erden, Bochum, Germany, December 4–6, 2008. |
14. | Yucang Liang, Thomas Deschner, Egil Sev. Erichsen, Reiner Anwnder Co/Al-Heterobimetal-Grafted Large-Pore Cubic Periodic Mesoporous Silica KIT-6 |
13. | Yucang Liang, Reiner Anwander Nanostructured Fischer-Tropsch catalysts: synthesis, characterization and catalytic activity of Co/Al-grafted periodic mesoporous silica MCM-48 |
12. | Yucang Liang, Reiner Anwander Periodic mesoporous organosilicas: mesophase control via binary surfactant mixtures |
11. | Yucang, Liang, R. Anwander Surface organometallic chemistry of periodic mesoporous organosilicas: generation of surface-confined zinc and yttrium centers 18. Deutsche Zeolithtagung, Hannover, March 1-3, 2006. 12th Nordic Symposium on Catalysis, Trondheim, May 28-30, 2006. |
10. | Yucang Liang, Reiner Anwander 16. Deutsche Zeolithtagung, Dresden, March 3-5, 2004. |
9. | Yucang Liang, Reiner Anwander Synthesis and surface functionalization of pore-enlarged mesoporous organosilicas 15. Deutsche Zeolithtagung, Kaiserslautern, March 5-7, 2003. EUROMAT 2003, Lausanne, September 1-5, 2003. |
8. | Yucang Liang, Maochun Hong, Rong Cao Syntheses and structural characterizations of the cobalt (II) and manganese (II) coordination polymers 4rd Symposium on coordination Chemistry of China, Guilin, October 23-26, 2001. |
7. | Yucang Liang, Rong Cao, Weiping Su, Wenjian Zhang, Maochun Hong Preparations, structures and magnetic properties of novel lantha- nide-transition metal coordination polymers via hydrothermal reaction |
6. | Rong Cao, Yucang Liang, Maochun Hong, Daofeng Sun, Weiping Su Syntheses and characterizations of lanthanide-transition metal polymeric complexes containing ligands with hybrid nitrogen and oxygen donor atoms 3rd World-Wide Symposium on Inorganic Chemistry for Chinese Scientists (WSICS-3), Academia Sinica, Taipei, Taiwan, August 1-4, 2000, E-40. |
5. | Yucang Liang, Rong Cao, Weiping Su, Daofeng Sun, Maochun Hong Syntheses, characterization, and property studies of rare earth-transition metal polymers |
4. | Yucang Liang, Rong Cao, Daofeng Sun, Maochun Hong, Jiabao Weng,Ruihu Wang Synthesis and crystal structure of novel lanthanide coordinate complexes containing aromatic dicarboxylated ligand with hybrid N-atom 21 Centry Development of Cluster Science and Photoelectric Materials, China Chemistry Society, Fujian, Fuzhou, October, 2000, p42. |
3. | Yucang Liang, Maochun Hong, Jiabao Weng, Rong Cao, Ruihu Wang, Daofeng Sun Syntheses, structures and luminescent properties studies of a series of novel brick-type lanthanide-transition metal coordination polymers 21 Centry Development of Cluster Science and Photoelectric Materials, China Chemistry Society, Fujian, Fuzhou, October, 2000, p40. |
2. | Yucang Liang, Ruihu Wang, Rong Cao, Daofeng Sun, Jiabao Weng, Maochun Hong Syntheses and structure studies of new type metal-organic microporous molecule sieve |
1. | Rong Cao, Yucang Liang, Maochun Hong, Weiping Su |
Lectures
1. | Organic Chemistry Lab Course for bachelor students in Nanoscience at the Department of Chemistry of Eberhard Karls Universität Tübingen in Germany (from Summer Semester 2013) | ||||||||||
2. | Nanoscience II for bachelor students at the Department of Chemistry of Eberhard Karls Universität Tübingen in Germany (from Winter Semester 2012) | ||||||||||
3. | Nanoscience I for bachelor students at the Department of Chemistry of Eberhard Karls Universität Tübingen in Germany (from Summer Semester 2012) | ||||||||||
4. | Nanochemistry Lab Course for bachelor students in nanoscience at the Department of Chemistry of Eberhard Karls Universität Tübingen in Germany (from 2012) | ||||||||||
5. | Inorganic Nanochemistry Lab Course at the Department of Chemistry of Technical University of Munich in Germany (2003 - 2005) and University of Bergen in Norway (2005-2009) | ||||||||||
6. | Physical Chemistry in Yan’an University in China (1994-1996) | ||||||||||
7. | Physical Chemistry Experiment in Yan’an University in China (1995-1996) | ||||||||||
8. | Inorganic Chemistry and Inorganic Chemistry Experiment in Yan’an University in China (1994) | ||||||||||
9. | Environmental Chemistry in Yan’an University in China (1995-1996) | ||||||||||
10. | As co-supervisor for PhD students:
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11. | As co-supervisor for Master students:
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12. | As supervisor for Bachelor students (Thesis):
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Invited Lectures
16. | Synthesis of Monodisperse Mesoporous Silicas and Their Applications in Luminescent Materials, Adsorption, Controlled Release and Catalysis Beijing University of Technology, Beijing, China, January 10, 2019 |
15. | Synthesis, Surface Modification and Applications of Periodic Mesoporous (Organo)Silicas (PM(O)Ss): From Bulk to Monodisperse Uniform Nanostructured Materials Beijing Institute of Technology, Beijing, China, January 4, 2019 |
14. | Bulk and Monodisperse Uniform Nanostructured Periodic Mesoporous (Organo)Silicas (PM(O)Ss): Synthesis, Surface Modification and Applications Northwestern Polytechnical University, Xi’an, China, December 21, 2018 |
13. | Synthesis, Surface Modification and Applications of Periodic Mesoporous (Organo)Silicas (PM(O)Ss): From Bulk to Monodisperse Uniform Nanostructured Materials Xi’an Jiaotong University, Xi’an, China, December 18, 2018 |
12. | Surface Modification and Applications of Monodisperse Periodic Mesoporous (Organo)Silicas (PM(O)Ss) Northwestern University, Xi’an, China, December 17, 2018 |
11. | Synthesis and Application of Monodisperse Mesoporous (Organo)Silicas (PM(O)Ss) China Three Gorges University, Yichang, China, December 14, 2018 |
10. | Synthesis, Surface Modification and Applications of Periodic Mesoporous (Organo)Silicas (PM(O)Ss): From Bulk to Monodisperse Uniform Nanostructured Materials Capital Normal University, Beijing, China, December 12, 2018 |
9. | Periodic Mesoporous (Organo)Silicas: from Synthesis to Applications Hebei University of Technology, Tianjin, China, November 13, 2017 |
8. | Bulky/Monodisperse Mesoporous (Organo)Silicas (PM(O)Ss): From Synthesis to Applications Sun Yat-Sen University, Guangzhou, China, November 10, 2017 |
7. | Monodisperse Mesoporous (Organo)Silicas (PM(O)Ss): From Synthesis to Applications ‘‘Chunhui Plan’’ supported by the Ministry of Education of the People’s Republic of China, Beijing University of Chemical Technology, Guangdong University of Technology; Yan’an University, and Northwestern Polytechnical University, China, October 26-November 11, 2017 |
6. | Metal-Organic-Framework-Linked Hybrid Periodic Mesoporous Silicas via Functional Carboxylic Acid Groups Yan’an University, Yan’an, China, December 7, 2016 |
5. | Periodic mesoporous (organo)silicas: from synthesis to applications Yan’an University, Yan’an, China, October 27, 2011 |
4. | Synthesis and applications of periodic mesoporous materials Beijing University of Technology, Beijing, China, October 26, 2011 |
3. | Periodic mesoporous organosilicas and their applications Shandong University, Jinan, China, September 2, 2010 |
2. | Synthesis and application of periodic mesoporous (organo)silicas Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fuzhou, China, August 30, 2010 |
1. | Ordered periodic mesoporous organosilicas and their surface chemistry. Shaanxi Normal University, Xi’an, China, August 23, 2010 |