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Ultrastable Covalent Triazine Organic Framework Based on Anthracene Moiety as Platform for High-Performance Carbon Dioxide Adsorption and Supercapacitors

Mohamed Gamal Mohamed, Santosh U. Sharma, Ni-Yun Liu, Tharwat Hassan Mansoure, Maha Mohamed Samy, Swetha V. Chaganti, Yu-Lung Chang, Jyh‐Tsung Lee, Shiao‐Wei Kuo

2022International Journal of Molecular Sciences78 citationsDOIOpen Access PDF

Abstract

Conductive and porous nitrogen-rich materials have great potential as supercapacitor electrode materials. The exceptional efficiency of such compounds, however, is dependent on their larger surface area and the level of nitrogen doping. To address these issues, we synthesized a porous covalent triazine framework (An-CTFs) based on 9,10-dicyanoanthracene (An-CN) units through an ionothermal reaction in the presence of different molar ratios of molten zinc chloride (ZnCl2) at 400 and 500 °C, yielding An-CTF-10-400, An-CTF-20-400, An-CTF-10-500, and An-CTF-20-500 microporous materials. According to N2 adsorption–desorption analyses (BET), these An-CTFs produced exceptionally high specific surface areas ranging from 406–751 m2·g−1. Furthermore, An-CTF-10-500 had a capacitance of 589 F·g−1, remarkable cycle stability up to 5000 cycles, up to 95% capacity retention, and strong CO2 adsorption capacity up to 5.65 mmol·g−1 at 273 K. As a result, our An-CTFs are a good alternative for both electrochemical energy storage and CO2 uptake.

Topics & Concepts

Microporous materialAdsorptionTriazineSupercapacitorMoietyAnthraceneMaterials scienceElectrochemistryDesorptionChemical engineeringSpecific surface areaCyanuric chlorideInorganic chemistryChemistryPolymer chemistryOrganic chemistryElectrodeComposite materialCatalysisEngineeringPhysical chemistryCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsMembrane Separation and Gas Transport
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