Hierarchical nanocomposites derived from UiO-66 framework and zeolite for enhanced CO2 adsorption

• Published in: Journal of environmental chemical engineering Vol. 11; no. 6; p. 111294
• Main Authors: Jalali, Azam, Ahmadpour, Ali, Ghahramaninezhad, Mahboube, Yasari, Elham
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.12.2023
• Subjects: CO2 Adsorption; Metal-organic framework; Nanocomposite; Separation; UiO-66; Zeolite Y; Zeolite Y; Metal-organic framework; UiO-66; Nanocomposite; CO2 Adsorption; Separation
• ISSN: 2213-3437
• DOI: 10.1016/j.jece.2023.111294

In this study, a new nanocomposite composed of zeolite Y incorporated into the UiO-66 framework has been synthesized by solvothermal growth of UiO-66 on the support of zeolite Y, and investigated for CO2 adsorption and separation of CO2/CH4 gas mixtures. The aim of this work was to increase the CO2 uptake and the selectivity of the base framework, as well as to increase its thermal stability. Various weight ratios of UiO-66/zeolite Y were prepared to achieve the optimal composition subject to the highest adsorption capacity. The formation of UiO-66/zeolite Y nanocomposites was verified with different characterization methods. It was observed that UiO-66/zeolite Y with a weight ratio of 90:10 has the same morphology as pristine UiO-66 but with superior porosity. Compared to base UiO-66, its surface area and micropore volume increased by about 80 % and 50 %, respectively. Moreover, the results indicate a substantial improvement of 50 % in the CO2 adsorption capacity of nanocomposite (14.6 mmol/g, 298 K, 30 bar) compared to pristine UiO-66. To our knowledge, the newly synthesized nanocomposites exhibited the record-highest CO2 adsorption capacity among the reported UiO-66 composites. The predicted CO2/CH4 adsorption selectivity of the nanocomposite based on IAST is also higher than that of the pristine MOF. Finally, the cyclic adsorption/desorption test revealed more than 95 % desorption efficiency after ten cycles. Due to the high capacity, selectivity, and reversibility of CO2 adsorption on the UiO-66/zeolite Y, and also the high thermal stability of the nanocomposite, it is suggested as an excellent potential adsorbent for the practical application of biogas and natural gas purification. Furthermore, this contribution also presents an insight into the role of zeolite Y in the nanocomposite framework which could comprehend pore size distribution control by varying its amount. [Display omitted] •An in-situ seed-mediated growth procedure was used to synthesize UiO-66/zeolite Y nanocomposites for the first time.•The nanocomposite had the record-highest CO2 uptake (14.9 mmol/g at 30 bar) among the previous reported UiO-66 composites.•Doping 10 wt.% of zeolite Y improved CO2 uptake by 50 % and CO2/CH4 selectivity by 25 % in the nanocomposite.•Regeneration of the nanocomposite requires less energy than most other reported adsorbents.