Calix[2]thia[4]phyrin: An Expanded Calixphyrin with Aggregation-Induced Enhanced Emission and Anion Receptor Properties

Karthik, Ganesan ; Krushna, Pallavee Vitti ; Srinivasan, A. ; Chandrashekar, Tavarekere K. (2013) Calix[2]thia[4]phyrin: An Expanded Calixphyrin with Aggregation-Induced Enhanced Emission and Anion Receptor Properties The Journal of Organic Chemistry, 78 (17). pp. 8496-8501. ISSN 0022-3263

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Official URL: http://doi.org/10.1021/jo401232a

Related URL: http://dx.doi.org/10.1021/jo401232a

Abstract

The synthesis of calix[2]thia[4]phyrin 3, a core-modified expanded calixphyrin, by an efficient synthetic route is reported. 3 exhibits an aggregation-induced enhanced emission (AIEE) phenomenon upon addition of increasing amounts of water. This is attributed to the restricted intramolecular rotation of the meso-aryl rings present on the sp3 bridging carbons. SEM studies revealed the formation of aggregation in an acetonitrile/water mixture with an average diameter of the aggregate in the range 0.38–2.08 μm. The photoluminescence quantum yield of 3 in 9:1 water/acetonitrile is 5-fold higher than the quantum yield in acetonitrile alone. Single-crystal X-ray analysis of 3 revealed a chairlike conformation stabilized by N–H···N and C–H···π intramolecular hydrogen-bonding interactions. Fluorine atoms on the meso-pentafluorophenyl groups are involved in C–H···F intermolecular hydrogen-bonding interactions to generate a two-dimensional supramolecular assembly in the solid state. In the diprotonated state, 3 has affinity for anions and forms 1:1 complexes with SO42–, NO3–, Cl–, and ClO4– in solution. The tetrahedral anions bind more strongly than the other anions. Single-crystal X-ray structure studies of the ClO4– anion complex with 3 revealed the formation of both 1:1 and 1:2 complexes in the solid state, with the host and the guest being held together by N–H···O hydrogen-bonding interactions.

Item Type:Article
Source:Copyright of this article belongs to American Chemical Society
ID Code:134858
Deposited On:16 Jan 2023 03:50
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