The reductive amination of 1,6-hexanediol with ammonia is one of the most promising green routes for synthesis of 1,6-hexanediamine. Herein, we developed a phosphorous modified Ni catalyst of Ni-P/Al2O3. It presented satisfactory improved selectiv...
Artikel
Boosting Dimethyl Carbonate Production from CO2 and Methanol using Ceria‐Ionic Liquid Catalyst
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We proposed a facilely synthesized catalyst CeO2@[BMIm][HCO3] ([BMIm][HCO3]=1-butyl-3-methylimidazolium bicarbonate for the direct synthesis of dimethyl carbonate (DMC) from CO2 and methanol as an alternative to present techniques that involve the stoichiometric use of hydrating agents, which presents environmental and toxicological challenges. This catalyst co-operatively capitalizes the unique properties of [BMIm][HCO3] and CeO2 nanoparticles to accelerate the reaction efficiently.
Abstract
As a crucial strategy towards a sustainable chemical industry, the direct synthesis of dimethyl carbonate (DMC) from renewable carbon dioxide (CO2) and methanol (MeOH) is studied using CeO2 nanoparticles modified with 1-butyl-3-methylimidazolium hydrogen carbonate ([BMIm][HCO3]) devoid of stoichiometric dehydrating agents. The synthesized CeO2@[BMIm][HCO3] catalyst having high thermal stability harnesses the unique physicochemical properties of CeO2 and the ionic liquid to exhibit a DMC yield of 10.4 % and a methanol conversion of 16.1 % at optimal conditions (pressure of CO2=5 MPa; temperature=130 °C). The catalytic behavior of CeO2@[BMIm][HCO3] studied with a detailed XRD, XPS, CO2 and NH3-TPD, Raman spectroscopy, TGA, FTIR, SEM and TEM suggests that the synergy between the two catalytic components originating from an increased surface oxygen vacancies boosts the overall catalytic performance. After several recycling tests, the catalyst demonstrated no significant reduction in DMC yield and methanol conversion. This platform is an attractive approach to synthesize thermally stable nanoparticle@ionic liquid that retains and merges the physical attributes of both materials for producing useful bulk chemicals from readily available chemical resources.
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