Selective CO2 capture and versatile dye adsorption using a microporous polymer with triptycene and 1, 2, 3-triazole motifs
Abstract Polymerization of 2, 6, 14-triethynyltriptycene and 1, 3, 5-tris (azidomethyl)-2, 4, 6-
trimethylbenzene to yield a new microporous organic material (TTMP) is described. TTMP is
thermally stable polymer with a high surface area, rendering it suitable to act as an
adsorbent for gases such as CO 2 and H 2 as well as for organic small molecule adsorbates
such as toxic organic dyes present in effluents discharged from textile industry. TTMP has
the potential as a material with applications in the domain of gas storage/separation and …
trimethylbenzene to yield a new microporous organic material (TTMP) is described. TTMP is
thermally stable polymer with a high surface area, rendering it suitable to act as an
adsorbent for gases such as CO 2 and H 2 as well as for organic small molecule adsorbates
such as toxic organic dyes present in effluents discharged from textile industry. TTMP has
the potential as a material with applications in the domain of gas storage/separation and …
Abstract
Polymerization of 2,6,14-triethynyltriptycene and 1,3,5-tris(azidomethyl)-2,4,6-trimethylbenzene to yield a new microporous organic material (TTMP) is described. TTMP is thermally stable polymer with a high surface area, rendering it suitable to act as an adsorbent for gases such as CO2 and H2 as well as for organic small molecule adsorbates such as toxic organic dyes present in effluents discharged from textile industry. TTMP has the potential as a material with applications in the domain of gas storage/separation and water pollution control.
Elsevier