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Accommodative Behavior of Non-porous Molecular crystal at Solid-Gas and Solid-Liquid Interface.


ABSTRACT: Molecular crystals demonstrate drastically different behavior in solid and liquid state, mainly due to their difference in structural frameworks. Therefore, designing of unique structured molecular compound which can work at both these interfaces has been a challenge. Here, we present remarkable 'molecular' property by non-porous molecular solid crystal, dinuclear copper complex (C6H5CH(X)NH2)2CuCl2, to reversibly 'adsorb' HCl gas at solid-gas interface as well as 'accommodate' azide anion at solid-liquid interface with crystal to crystal transformation. The latter process is driven by molecular recognition, self-assembly, and anchimeric assistance. The observed transformations are feasible due to breathing of inner and outer coordination sphere around metal center resulting in change in metal polyhedra for 'accommodating' guest molecule. These transformations cause changes in optical, magnetic, and/or ferroelectric property offering diversity in 'sensing' application. With the proposed underlying principles in these exceptional reversible and cyclic transformations, we prepared a series of compounds, can facilitate designing of novel multifunctional molecular materials.

SUBMITTER: Mande HM 

PROVIDER: S-EPMC4585990 | biostudies-literature | 2015 Sep

REPOSITORIES: biostudies-literature

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Accommodative Behavior of Non-porous Molecular crystal at Solid-Gas and Solid-Liquid Interface.

Mande Hemant M HM   Ghalsasi Prasanna S PS  

Scientific reports 20150928


Molecular crystals demonstrate drastically different behavior in solid and liquid state, mainly due to their difference in structural frameworks. Therefore, designing of unique structured molecular compound which can work at both these interfaces has been a challenge. Here, we present remarkable 'molecular' property by non-porous molecular solid crystal, dinuclear copper complex (C6H5CH(X)NH2)2CuCl2, to reversibly 'adsorb' HCl gas at solid-gas interface as well as 'accommodate' azide anion at so  ...[more]

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