Evaluating metal-free quaternized boronate esters as efficient catalysts for the fixation of CO2 with epoxides to form cyclic carbonates under suitable conditions†

IF 3.4 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Eyyup Yasar, Emine Aytar and Ahmet Kilic
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Abstract

The conversion of CO2 into high value-added chemicals is receiving increasing attention from the scientific community, commercial enterprises, and policymakers due to environmental problems like global warming. Herein, metal-free quaternized boronate esters (QBE1QBE8) were prepared and then used as potential efficient metal-free catalysts for the chemical valorization of CO2 to organic cyclic carbonates under solvent-free and sustainable green atmospheric and high-pressure conditions (1 atm or 1.6 MPa, 100 °C, 2 h) as an alternative to toxic reagents such as phosgene. Analyses performed with various spectroscopic tools (1H, 13C, and 11B NMR, FT-IR, UV-vis, LC-MS/MS, elemental analysis, and melting point measurement together with thermal gravimetric analysis (TGA-DTA)) revealed that the targeted quaternized boronate esters were successfully synthesized. After that, the Lewis acidity of the synthesized quaternized boronate esters was investigated by the traditional Gutmann–Beckett method and found to range from 53.72 to 50.47 ppm, respectively. In the presence of 0.1 mol% metal-free quaternized boronate ester QBE3 and 0.2 mol% co-catalyst DMAP, 4-chloromethyl-1,3-dioxalan-2-one was obtained as a cyclic carbonate in 51.7% yield at 1 atm and 100 °C and then under 1.6 MPa and 100 °C in an excellent 94.9% yield with 97.9% selectivity in 2 h, allowing us to facilitate the fixation of CO2 into cyclic carbonates rapidly. According to the catalytic findings, the optimum cat./ECH ratio for CO2 cycloaddition reactions is 1/1000.

Abstract Image

评估无金属季硼酸酯在适当条件下作为二氧化碳与环氧化物固定形成环碳酸盐的高效催化剂的作用
由于全球变暖等环境问题,将二氧化碳转化为高附加值化学品正日益受到科学界、商业企业和政策制定者的关注。本文制备了无金属季硼酸酯(QBE1-QBE8),并将其作为潜在的高效无金属催化剂,用于在无溶剂、可持续的绿色大气和高压条件(1 atm 或 1.6 MPa、100 oC、2 h)下将 CO2 化学增值为有机环碳酸盐,以替代光气等有毒试剂。利用各种光谱工具(1H、13C 和 11B NMR、FT-IR、UV-Vis、LC-MS/MS、元素分析、熔点测量和热重分析 (TGA-DTA))进行的分析表明,成功合成了目标季铵化硼酸酯。随后,用传统的 Gutmann-Beckett 法研究了合成的季硼酸酯的路易斯酸度,发现其范围分别为 53.72 至 50.47 ppm。在 0.1 摩尔% 无金属季硼酸酯 (QBE3) 和 0.2 摩尔% 助催化剂 DMAP 的存在下,4-氯甲基-1,3-二氧戊环-2-酮在 1 个大气压和 100 摄氏度的条件下以 51.7% 的产率得到环碳酸盐,然后在 1.6 兆帕和 100 摄氏度的条件下以 94.9% 的产率和 97.9% 的选择性在 2 小时内得到环碳酸盐,从而促进了二氧化碳快速固定为环碳酸盐。根据催化结果,二氧化碳环加成反应的最佳 Cat./ECH 比率为 1/1000。
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来源期刊
Reaction Chemistry & Engineering
Reaction Chemistry & Engineering Chemistry-Chemistry (miscellaneous)
CiteScore
6.60
自引率
7.70%
发文量
227
期刊介绍: Reaction Chemistry & Engineering is a new journal reporting cutting edge research into all aspects of making molecules for the benefit of fundamental research, applied processes and wider society. From fundamental, molecular-level chemistry to large scale chemical production, Reaction Chemistry & Engineering brings together communities of chemists and chemical engineers working to ensure the crucial role of reaction chemistry in today’s world.
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