| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1305347 | Inorganic Chemistry Communications | 2015 | 5 Pages |
•Two kinds of SHG active complexes with diamondoid frameworks were studied.•Asymmetrical H-bonding connections induce the polarity of Cd(II)-β-alanine complex.•The molecular flexibility of β-alanine ligand is responsible for the polarity of Zn(II)-β-alanine complex.
A complex, [Cd(HL)4](NO3)2 (1) (HL = β-alanine), was synthesized and characterized by X-ray single crystal diffraction method, which crystallized in an acentric space group Fdd2 with supramolecular diamondoid frameworks and its second harmonic generation (SHG) efficiency has been tested. The ligand in complex 1 is electronically neutral. The counter-ion, NO3−, interacts with β-alanine ligands by asymmetrical H-bonding connections, which induces the structural polarity of complex 1. Based on our understanding of SHG materials, we predicted and found another new SHG material, [ZnL2]n (2) with an acentric space group Cc, although the crystal data of complex 2 has been reported. The possible reasons for complex 2 possessing SHG property were discussed. The analysis about similar and dissimilar influence factors on constructing SHG materials between complex 1 and complex 2 will be useful for synthesizing and finding out more SHG materials.
Graphical abstractThe asymmetrical H-bonding connections in [Cd(HL)4](NO3)2 and flexible molecular conformations of ligands in [ZnL2]n (HL = β-alanine) are responsible for their polar diamondoid frameworks and SHG properties, respectively.Figure optionsDownload full-size imageDownload as PowerPoint slide
