• Picric acid sensing and CO2 capture by a sterically encumbered azo-linked fluorescent triphenylbenzene based covalent organic polymer

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      https://www.ias.ac.in/article/fulltext/jcsc/130/01/0001

    • Keywords

       

      Azo linkage; COPs; CO2 capture; nitroaromatic sensing; triphenylbenzene.

    • Abstract

       

      A sterically encumbered isopropyl group substituted fluorescent triphenylbenzene based azo-linkedcovalent organic polymer, iPrTAPB-Azo-COP, has been synthesized by Cu(I) catalysed homo coupling (amineamine)reaction of 1,3,5-tris(4'-amino-3'

      5'-isopropylphenyl)benzene (iPrTAPB) under aerobic conditions. TheBrunauer-Emmett-Teller (BET) and Langmuir surface areas of iPrTAPB-Azo-COP have been estimated to be395 and 697 m2 g-1 with a pore diameter of 11.6 Å. Due to the presence of fluorescent triphenylbenzeneplatform iPrTAPB-Azo-COP exhibits broad emission band centred at 428 nm, when excited at 300 nm, as aresult of extended conjugation. The inherent fluorescent nature of iPrTAPB-Azo-COP has been utilized for sensing electron-deficient polynitroaromatic compounds (PNACs) such as a picric acid (PA), dinitrotoluene (DNT), p-dinitrobenzene (p-DNB) and m-dinitrobenzene (m-DNB). Further, iPrTAPB-Azo-COP has also been utilized for capture of carbon dioxide as the azo-COP is enriched with CO2-philic nitrogen atoms apart from its microporosity. Since the azo (–N=N-) linkages are masked by the bulky isopropyl groups, iPrTAPB-Azo-COP exhibits a CO2 uptake of 6.5 and 19.4 wt% at 1 bar and 30 bar, respectively, at 273 K.

    • Author Affiliations

       

      Dhananjayan Kaleeswaran Ramaswamy Murugavel1

      1. Department of Chemistry,Indian Institute of Technology Bombay,Powai, Mumbai,Maharashtra 400 076,India
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