Temperature-Dependent 3-D CuI Coordination Polymers of Calix[4]-bis-dithiacrown: Crystal-to-Crystal Transformation and Photoluminescence Change on Coordinated Solvent Removal
Journal of the American Chemical Society2008Vol. 130(22), pp. 6902–6903
Citations Over TimeTop 10% of 2008 papers
Abstract
The temperature-dependent assembly of two 3-D CuI coordination polymers containing calix[4]-bis-thiacrown with different networking motifs are reported. Upon removal of the coordinated solvent molecules the initial solvent-coordinated polymer undergoes a unique single-crystal-to-single-crystal transformation to the desolvated polymer. Structural characteristics observed in the solvent-coordinated and the desolvated polymers also reveal related solvato-photolunimescence "off-on" behavior.
Related Papers
- → Single-crystal to single-crystal transformation of 1D coordination polymervia photochemical [2+2] cycloaddition reaction(2010)56 cited
- → Synthesis and structural characterization of a single-crystal to single-crystal transformable coordination polymer(2013)20 cited
- → Photoluminescence of porous Si, oxidized then deoxidized chemically(1992)109 cited
- → Study of delocalized and localized states in ZnSeO layers with photoluminescence, micro-photoluminescence, and time-resolved photoluminescence(2019)7 cited
- → Ballistic effect and new concept of Si wire photoluminescence(2003)1 cited