1.基于功能化多唑烷衍生物的配位聚合物化学-国家自然科学基金(20671071)2.基于多功能柔性配体的新型配位聚合物设计及性能研究-国家自然科学基金(20401012)3.教育部新世纪优秀人才支持计划(NCET-07-0613)4.纳米有序多孔晶体材料的组装与分子器件基础研究-天津市自然科学基金重点项目(043804111)5.基于新型多功能配体的配位聚合物构筑及理化性能研究-教育部科学技术研究重点项目(205008)6.无机-有机杂化纳米材料的设计、结构与性能研究-天津市自然科学基金(033609711)发表论文2000年至今已在国内外学术刊物上发表SCI收录论文205篇,其中影响因子0 以上专业期刊58篇;被国内外专家学者他人引用1600 次以上(8篇论文单篇引用超过50次,h-index = 27)。近期代表性论文如下(通讯作者): M Du,* Z-H Zhang, L-F Tang, X-J Zhao, S R B “Molecular tectonics of metal-organic frameworks (MOFs) – a rational design strategy for unusual mixed-connected network topologies” C E J 2007, 13, 2578– X-D Chen, H-F Wu, M D* “Controllable preparation of ZnII coordination polymers: unusual solvothermal formation of a LiGe-type framework directed by in situ S–S coupling of 5-(4-pyridyl)-1-H-1,2,4-triazole-3-thiol” C C 2008, 1296– M Du,* X-J Jiang, X-J Z “Direction of unusual mixed-ligand metal-organic frameworks: a new type of 3-D polythreading involving 1-D and 2-D structural motifs and a 2-fold interpenetrating porous network” C C 2005, 5521– M Du,* X-J Zhao, J-H Guo, S R B “Direction of topological isomers of silver(I) coordination polymers induced by solvent, and selective anion-exchange of a class of PtS-type host frameworks” C C 2005, 4836– M Du,* X-J Jiang, X-J Z “Molecular tectonics of mixed-ligand metal-organic frameworks (MOFs): positional isomeric effect, metal-directed assembly and structural diversification” I C 2007, 46, 3984– M Du,* Z-H Zhang, X-J Zhao, Q X “Modulated preparation and structural diversification of ZnII and CdII metal-organic frameworks with a versatile building block 5-(4-pyridyl)-1,3,4-oxadiazole-2-thiol” I C 2006, 45, 5785– M Du,* X-J Jiang, X-J Z “Controllable assembly of metal-directed coordination polymers under diverse conditions: a case study of the MII–H3tma/bpt mixed-ligand system” I C 2006, 45, 3998– M Du,* X-J Zhao, Y W “Crystal Engineering of a versatile building block toward the design of novel inorganic-organic coordination architectures” Dalton T 2004, 2065– M Du,* Z-H Zhang, W Guo, X-J F “Multi-Component hydrogen-bonding assembly of a pharmaceutical agent pamoic acid with piperazine or 4,4’-bipyridyl: a channel hydrated salt with multiple-helical motifs a bimolecular co-crystal” C Growth D 2009, 9, DOI: 1021/ X-D Chen, H-F Wu, X-H Zhao, X-J Zhao, M D* “Metal-organic coordination architectures with thiazole-spaced pyridinecarboxylates: conformational polymorphism, structural adjustments and ligand flexibility” C Growth D 2007, 7, 124– M Du,* Z-H Zhang, X-G Wang, H-F Wu, Q W “Flexible building blocks N,N'-bis(picolinoyl) hydrazine for hydrogen-bonding directed cocrystallization: structural diversity, concomitant polymorphs and synthon prediction” C Growth D 2006, 6, 1867– M Du,* Z-H Zhang, X-J Z “A search for predictable hydrogen-bonding synthons in cocrystallization of unusual organic acids with a bent dipyridine” C Growth D 2006, 6, 390– M Du,* C-P Li, X-J Z “Metal-controlled assembly of coordination polymers with the flexible building block 4-pyridylacetic acid (Hpya)” C Growth D 2006, 6, 335– M Du,* Z-H Zhang, X-J Zhao, H C “Synthons competition/prediction in cocrystallization of flexible dicarboxylic acids with bent dipyridines” C Growth D 2006, 6, 114– M Du,* Z-H Zhang, X-J Z “Cocrystallization of trimesic acid and pyromellitic acid with bent dipyridines” C Growth D 2005, 5, 1247– M Du,* Z-H Zhang, X-J Z “Cocrystallization of bent dipyridyl type compounds with aromatic dicarboxylic acids: effect of the geometries of building blocks on hydrogen-bonding supramolecular patterns” C Growth D 2005, 5, 1199– M Du,* X-J Zhao, S R Batten, J R “From 1-D coordination polymers to 3-D hydrogen-bonding networks: crystal engineering and magnetism of CuII–dca–cyanopyridine supramolecular systems (dca = dicyanamide, N(CN)2–)” C Growth D 2005, 5, 901– X-J Jiang, S-Z Zhang, J-H Guo, X-G Wang, J-S Li, M D* “Structural diversity and modulation of metal-organic coordination frameworks with a flexible V-shaped dicarboxyl building block” CrystEngComm 2009, 11, DOI: 1039/ M Du,* X-J Jiang, X Tan, Z-H Zhang, H C “Co-crystallization of a versatile building block 4-amino-3,5-bis(4-pyridyl)-1,2,4-triazole with R-isophthalic acids (R = –H, –NH2, –SO3H, and –COOH): polymorphism and substituent effect on structural diversity” CrystEngComm 2009, 11, 454– M Du,* Z-H Zhang, X-G Wang, L-F Tang, X-J Z “Structural modulation of polythreading and interpenetrating coordination networks with an elongated dipyridyl building block and various anionic co-ligands” CrystEngComm 2008, 10, 1855– Z-H Zhang, M D* “Flexible and versatile anionic modules in the direction of 1-D, 2-D, and 3-D coordination frameworks by metal-ligand synergistic interactions” CrystEngComm 2008, 10, 1350– M Du,* Z-H Zhang, Y-P You, X-J Z “R-Isophthalate (R = –H, –NO2, and –COOH) as modular building blocks for mixed-ligand coordination polymers incorporated with a versatile connector 4-amino-3,5-bis(3-pyridyl)-1,2,4-triazole” CrystEngComm 2008, 10, 306–321 (cover article) M Du,* C-P Li, X-J Zhao, Q Y “Interplay of coordinative and supramolecular interactions in engineering unusual crystalline architectures of low-dimensional metal-pamoate complexes under co-ligand intervention” CrystEngComm 2007, 9, 1011–1028 (highlighted by Nature China) M Du,* X-G Wang, Z-H Zhang, L-F Tang, X-J Z “Solvent-directed layered Co(II) coordination polymers with unusual solid-state properties: from a nanoporous framework to the dense polythreading 3-D aggregation” CrystEngComm 2006, 8, 788–793 (inside cover article) M Du,* C-P Li, X-J Z “Hierarchical regulated assembly of new metallosupramolecular networks based on metal thiocyanate and trans-1-(2-pyridyl)-2-(4-pyridyl)ethylene (bpe) via multiple interactions” CrystEngComm 2006, 8, 552–