Supramolecular Chirality in Organo‐, Hydro‐, and Metallogels Derived from Bis‐amides of L‐(+)‐Tartaric Acid: Formation of Highly Aligned 1D Silica Fibers and Evidence of 5‐c Net SnS Topology in a Metallogel Network |
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Authors: | Uttam Kumar Das Dr Parthasarathi Dastidar |
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Institution: | Department of Organic Chemistry, Indian Association for the Cultivation of Science (IACS), 2A and 2B, Raja S. C. Mullick Road, Jadavpur, Kolkata, 700032, West Bengal (India), Fax: (+91)?33‐2473‐2805 |
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Abstract: | A series of bis‐amides derived from L ‐(+)‐tartaric acid was synthesized as potential low‐molecular‐weight gelators. Out of 14 bis‐amides synthesized, 13 displayed organo‐, hydro‐, and ambidextrous gelation behavior. The gels were characterized by methods including circular dichroism, differential scanning calorimetry, optical and electron microscopy, and rheology. One of the gels derived from di‐3‐pyridyltartaramide ( D‐3‐PyTA ) displayed intriguing nanotubular morphology of the gel network, which was exploited as a template to generate highly aligned 1D silica fibers. The gelator D‐3‐PyTA was also exploited to generate metallogels by treatment with various CuII/ZnII salts under suitable conditions. A structure–property correlation on the basis of single‐crystal and powder X‐ray diffraction data was attempted to gain insight into the structures of the gel networks in both organo‐ and metallogels. Such study led to the determination of the gel‐network structure of the CuII coordination‐polymer‐based metallogel, which displayed a 2D sheet architecture made of a chloride‐bridged double helix that resembled a 5‐c net SnS topology. |
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Keywords: | amides gels supramolecular chemistry tartaric acid X‐ray diffraction |
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