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Synergistic Effect of Various Intermolecular Interactions on Self-assembly and Optoelectronic Behaviour in Co-crystals/Salts of Tetrabromoterephthalic Acid: A Report on Their Structure, Theoretical Study and Hirshfeld Surface Analysis

Abstract

The rational design of organic opto-electronic materials is one of the prime focuses in recent time and halogen interactions have become a major tool in crystal engineering to design multi-component organic co-crystals/salts. Tetrabromoterephthalic acid (TBTA), which is able to participate in both hydrogen bonding and halogen bonding, has been used as co-crystallizing agent to synthesize four different organic co-crystals/salts: TBTA-3-bromopyridine (co-crystal I), TBTA•TBTA2--2(2-aminopyridine+)•2H2O (co-crystal salt II), TBTA--4-aminopyridine+•H2O (salt III) and TBTA•TBTA2--2(nicotinamide+)•2H2O (co-crystal salt IV) by conventional solvent evaporation method. These compounds were characterized by single crystal X-ray diffraction (SC-XRD), powder X-ray diffraction (PXRD), spectral and thermal studies. Molecular and supramolecular structural analyses reveal that TBTA interacts with the pyridyl containing co-formers through hydrogen bonding, and exploits several types of halogen bonding (Br•••O, Br•••H, Br•••Br, Br•••π interactions etc.) and π•••π interactions to assemble in the solid state. TBTA utilizes Br•••π interaction to assemble with other co-formers while Br•••O interactions and preferably type I Br•••Br interactions to assemble with each others in these co-crystals/salts. Supramolecular behaviour of TBTA within these co-crystals/salts analyzed by Hirshfeld surface analysis and associated 2D fingerprint plots also corroborates with the crystallographic supramolecular structural patterns. Theoretical analysis has been carried out for geometry optimization and bandgap calculations which were then compared with the optical bandgap values. Charge separated hydrogen bonding and π••• interactions, Br•••π and π•••π interactions, have significant impact on optical and electrical properties of these samples. Solid state luminescence studies reveal that all compounds show blue shift. Electrical conductivity measurements on ITO/sample/Al sandwich structures of these supramolecular complexes reveal Schottky barrier diode behaviour and photo-responsivity under illumination.

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Article information


Submitted
30 Jul 2020
Accepted
29 Sep 2020
First published
29 Sep 2020

CrystEngComm, 2020, Accepted Manuscript
Article type
Paper

Synergistic Effect of Various Intermolecular Interactions on Self-assembly and Optoelectronic Behaviour in Co-crystals/Salts of Tetrabromoterephthalic Acid: A Report on Their Structure, Theoretical Study and Hirshfeld Surface Analysis

S. Singha, S. Goswami, S. K. Dey, R. Jana, P. P. Ray, I. Saha, C. Rizzoli, P. P. Bag, S. Kumar and R. SAHA, CrystEngComm, 2020, Accepted Manuscript , DOI: 10.1039/D0CE01102A

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