Synthesis, structural characterization and photoluminescence property of two Zn2+/In3+-4,4′-oxydiphthalhydrazidate complexes

[1]  Jie Wu,et al.  A highly selective and sensitive Zn(II) coordination polymer luminescent sensor for Al3+ and NACs in the aqueous phase , 2017 .

[2]  Wenfu Yan,et al.  New 4-carboxylphthalhydrazidate-bridged Mn 2+ /In 3+ coordination polymers , 2017 .

[3]  Wenfu Yan,et al.  New oxalate-propagated layered Mn2+/Fe2+-4,4′-sulfoyldiphthalhydrazidate coordination polymers , 2017 .

[4]  T. Baran,et al.  Highly efficient Suzuki cross-coupling reaction of biomaterial supported catalyst derived from glyoxal and chitosan , 2016 .

[5]  G. Sheldrick SHELXT – Integrated space-group and crystal-structure determination , 2015, Acta crystallographica. Section A, Foundations and advances.

[6]  Jie-hui Yu,et al.  In situ synthesis and structural characterization of a series of acylhydrazidate-extended Ln3+ and Zn2+ coordination polymers , 2014 .

[7]  Zu-Jin Lin,et al.  Metal-organic frameworks based on flexible ligands (FL-MOFs): structures and applications. , 2014, Chemical Society reviews.

[8]  Fuquan Bai,et al.  Synthesis, structural characterization and photoluminescence property of three Zn(2+)/Mn(2+)-acylhydrazidate complexes and two acylhydrazide molecules. , 2013, Dalton transactions.

[9]  Fuquan Bai,et al.  Oxalate-extended Cd2+–acylhydrazidate coordination polymers: synthesis, structure and fluorescence property , 2013 .

[10]  Fuquan Bai,et al.  New Cd2+, Pb2+ complexes with acylhydrazidate molecules from in situ acylation reactions. , 2013, Dalton transactions.

[11]  Guanghua Li,et al.  Synthesis, structural characterization and photoluminescence property of four di(mono)acylhydrazidate-coordinated Cd2+ and Zn2+ compounds , 2012 .

[12]  Guanghua Li,et al.  New metal complexes with di(mono)acylhydrazidate molecules. , 2012, Dalton transactions.

[13]  Fuquan Bai,et al.  New monoacylhydrazidate-coordinated Mn2+ and Pb2+ compounds. , 2012, Dalton transactions.

[14]  Yu Peng,et al.  New photoluminescence acylhydrazidate-coordinated complexes. , 2012, Dalton transactions.

[15]  Jie-hui Yu,et al.  New pyridine-monoacylhydrazidate-coordinated transition-metal complexes , 2011 .

[16]  Yu Peng,et al.  New 4,5-dichlorophthalhydrazidate-bridged chained coordination polymers , 2011 .

[17]  L. Ye,et al.  Fluorescent metal-organic polymers of zinc and cadmium from hydrothermal in situ acylation reaction. , 2010, Dalton transactions.

[18]  Jia-ning Xu,et al.  Synthesis and structural characterization of three copper coordination polymers with pyridine derivatives from hydro(solvo)thermal in situ decarboxylation reactions of 2,5-dicarboxylpyridine , 2010 .

[19]  Yu Peng,et al.  4-Carboxylphthalhydrazidate-bridged layered Pb(II) coordination polymers , 2010 .

[20]  Jie-hui Yu,et al.  Preparation and structural characterization of a series of monoacylhydrazidate-bridged coordination polymers. , 2009, Dalton transactions.

[21]  Richard J. Gildea,et al.  OLEX2: a complete structure solution, refinement and analysis program , 2009 .

[22]  P. Feng,et al.  In Situ Synthesis of Tetradentate Dye for Construction of Three-Dimensional Homochiral Phosphor. , 2008, Chemistry of materials : a publication of the American Chemical Society.

[23]  Sheng-ping Guo,et al.  Wavelength-dependent photochromic inorganic-organic hybrid based on a 3D iodoplumbate open-framework material. , 2008, Angewandte Chemie.

[24]  Xiao‐Ming Chen,et al.  Solvothermal in situ metal/ligand reactions: a new bridge between coordination chemistry and organic synthetic chemistry. , 2007, Accounts of chemical research.

[25]  Zhi-Rong Qu,et al.  Syntheses, crystal structures, and luminescent properties of three novel zinc coordination polymers with tetrazolyl ligands. , 2005, Inorganic chemistry.

[26]  Xian‐Ming Zhang Hydro(solvo)thermal in situ ligand syntheses , 2005 .

[27]  Tao Wu,et al.  Two novel nanoporous supramolecular architectures based on copper(i) coordination polymers with uniform (8, 3) and (8(2)10) nets: in situ formation of tetrazolate ligands. , 2005, Inorganic chemistry.

[28]  E. Gutiérrez‐Puebla,et al.  Novel 2D and 3D Indium Metal-Organic Frameworks: Topology and Catalytic Properties† , 2005 .

[29]  Lan-sun Zheng,et al.  Synthesis and characterization of a tetrazolate-bridged coordination framework encapsulating D2h-symmetric cyclic (H2O)4 cluster arrays. , 2004, Inorganic chemistry.

[30]  Ji-qing Xu,et al.  One‐ and Three‐Dimensional Coordination Polymers Containing Organic Ligands Produced Through in situ Hydrothermal Reactions , 2004 .

[31]  P. Cheng,et al.  A new route for preparing coordination polymers from hydrothermal reactions involving in situ ligand synthesis. , 2004, Inorganic chemistry.

[32]  D. Louër,et al.  The layer crystal structure of [In2(C2O4)3(H2O)3]·7H2O and microstructure of nanocrystalline In2O3 obtained from thermal decomposition , 2003 .

[33]  Xiao‐Ming Chen,et al.  A mixed-valence copper coordination polymer generated by hydrothermal metal/ligand redox reactions. , 2002, Chemical communications.

[34]  Xiao-Ming Chen,et al.  Hydroxylation of N-heterocycle ligands observed in two unusual mixed-valence Cu(I)/Cu(II) complexes. , 2002, Angewandte Chemie.

[35]  Zhi-hui Wang,et al.  Syntheses, crystal structures and magnetic properties of there low-dimensional CPs based on V-shaped diacylhydrazidate ligand from in situ acylation reaction , 2018 .

[36]  S. Gou,et al.  In situ construction of metal–organic sulfur-containing heterocycle frameworks , 2011 .

[37]  Hong Zhao,et al.  In situ hydrothermal synthesis of tetrazole coordination polymers with interesting physical properties. , 2008, Chemical Society reviews.

[38]  A. J. Blake,et al.  IN SITU LIGAND SYNTHESIS AND CONSTRUCTION OF AN UNPRECEDENTED THREE-DIMENSIONAL ARRAY WITH SILVER(I): A NEW APPROACH TO INORGANIC CRYSTAL ENGINEERING , 1997 .