Anion-controlled assembly of Ag(I) coordination polymers based on cis/trans-bis(acetylacetone)-1,4-cyclohexanediimine ligands: syntheses, structures, and solid-state luminescence

“…Over the past decades, research into Ag (I) complexes and coordination polymers (CPs) is rapidly progressing due to their wide structural diversity and functional properties such as intriguing photoluminescence, [1][2][3][4][5][6][7][8] catalytic [9][10][11] and antimicrobial activities. [6,[12][13][14][15] The versatile coordination behavior of Ag (I) ion allows to design a wide range of assemblies ranging from molecular complexes to chain and layered polymers as well as 3D metal-organic frameworks.…”

0D to 3D Coordination Assemblies Engineered on Silver(I) Salts and 2‐(Alkylsulfanyl)azine Ligands: Crystal Structures, Dual Luminescence, and Cytotoxic Activity

“…Over the past decades, research into Ag (I) complexes and coordination polymers (CPs) is rapidly progressing due to their wide structural diversity and functional properties such as intriguing photoluminescence, [1][2][3][4][5][6][7][8] catalytic [9][10][11] and antimicrobial activities. [6,[12][13][14][15] The versatile coordination behavior of Ag (I) ion allows to design a wide range of assemblies ranging from molecular complexes to chain and layered polymers as well as 3D metal-organic frameworks.…”

0D to 3D Coordination Assemblies Engineered on Silver(I) Salts and 2‐(Alkylsulfanyl)azine Ligands: Crystal Structures, Dual Luminescence, and Cytotoxic Activity

Advances on silver-based MOFs and/or CPs and their composites: Synthesis strategies and applications

Anion influence on polymerization of Cd(II) picolinamide complexes