New oxalate-propagated layered Mn2+/Fe2+-4,4′-sulfoyldiphthalhydrazidate coordination polymers

[1]  T. Baran,et al.  Polymeric material prepared from Schiff base based on O-carboxymethyl chitosan and its Cu(II) and Pd(II) complexes , 2016 .

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

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

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

[5]  Guanghua Li,et al.  Construction of acylhydrazidate-extended metal-organic frameworks. , 2014, Dalton transactions.

[6]  C. R. Murdock,et al.  Approaches for Synthesizing Breathing MOFs by Exploiting Dimensional Rigidity , 2014 .

[7]  Guanghua Li,et al.  New Zn2+ coordination polymers with mixed triazolate/tetrazolate and acylhydrazidate as linkers , 2014 .

[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]  O. Duman,et al.  Studies on the interactions of chloroquine diphosphate and phenelzine sulfate drugs with human serum albumin and human hemoglobin proteins by spectroscopic techniques , 2013 .

[10]  Teppei Yamada,et al.  Designer coordination polymers: dimensional crossover architectures and proton conduction. , 2013, Chemical Society reviews.

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

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

[13]  O. Duman,et al.  Characterization of the Binding of Metoprolol Tartrate and Guaifenesin Drugs to Human Serum Albumin and Human Hemoglobin Proteins by Fluorescence and Circular Dichroism Spectroscopy , 2013, Journal of Fluorescence.

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

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

[16]  Yu-Hui Luo,et al.  A series of coordination polymers constructed from in situ amidation ligands: syntheses, structures and luminescent properties , 2012 .

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

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

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

[20]  Song Gao,et al.  Framework-structured weak ferromagnets. , 2011, Chemical Society reviews.

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

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

[23]  Liangliang Huang,et al.  Synthesis, crystal structure and photoluminescent property of a novel indium (III) supramolecular 3D framework , 2010 .

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

[25]  F. Jiang,et al.  Magnetic lanthanide–transition-metal organic–inorganic hybrid materials: From discrete clusters to extended frameworks , 2009 .

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

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

[28]  C. Ruiz-Pérez,et al.  A new coordination mode in oxalate-bridged polymers: molecular and crystal structure of [Cu3(C2O4)2(C2H8N2)4(ClO4)2]n·2H2O , 2001 .