Sustainable and scalable continuous synthesis of metal‐organic frameworks for CO2 capture

Abstract

AbstractThis study demonstrates a continuous method for the production of high‐quality ZIF‐8 and HKUST‐1 (surface areas over 1500 m2/g) under mild synthesis conditions (ambient pressure and temperatures below 100°C) with only environmentally preferable green solvents (water and ethanol) being used in the entire synthesis process. High yields of metal organic frameworks (MOFs) are achieved (65% for ZIF‐8 and 79% for HKUST‐1). The comparison between the as‐synthesized samples and commercially available equivalents with respect to shape, size, surface area, thermal stability and CO2 uptake capability was conducted in this research. The synthesized MOFs both show competitive CO2 adsorption ability under a pressure in the range of 1–5 bar. Under a pressure of 5 bar,CO2 uptake capacity of ZIF‐8 and HKUST‐1 is 3.83 mmol/g and 6.68 mmol/g, respectively, which are 3.81 mmol/g and 6.62 mmol/g, respectively, for commercialized samples. The synthesized HKUST‐1 has higher values compared to the commercialized one within this range of pressures. This indicates the method developed in this study is promising to to be used for the continuous production of high‐quality MOFs for CO2 capture applications. © 2023 The Authors. Greenhouse Gases: Science and Technology published by Society of Chemical Industry and John Wiley & Sons Ltd.