Journal ArticleDOI
Hydroxyl-Exchanged Nanoporous Ionic Copolymer toward Low-Temperature Cycloaddition of Atmospheric Carbon Dioxide into Carbonates
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TLDR
The specifically prepared ionic copolymer material of this work features highly stable, noncorrosive, and sustainable catalysis and, thus, may be a new possibility for efficient chemical fixation of CO2 since it is an environmentally friendly, metal-free solid catalyst.Abstract:
An ionic copolymer catalyst with nanopores, large surface area, high ionic density, and superior basicity was prepared via the radical copolymerization of amino-functionalized ionic liquid bromide and divinylbenzene, followed with a hydroxyl exchange for removing bromonium. Evaluated in chemical fixation of CO2 with epoxides into cyclic carbonates in the absence of any solvent and basic additive, the nanoporous copolymer catalyst showed high and stable activity, superior to various control catalysts including the halogen-containing analogue. Further, high yields were obtained over a wide scope of substrates including aliphatic long carbon-chain alkyl epoxides and internal epoxide, even under atmospheric pressure and less than 100 °C for the majority of the substrates. On the basis of in situ Fourier transform infrared (FT-IR) investigation and density functional theory (DFT) calculation for the reaction intermediates, we proposed a possible reaction mechanism accounting for the superior catalytic activity...read more
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Metal–organic frameworks and porous organic polymers for sustainable fixation of carbon dioxide into cyclic carbonates
TL;DR: In this paper, the synthesis and catalytic performances of various kinds of newly developed porous heterogeneous catalysts with Lewis acidic and nucleophilic sites are described from the perspective of catalyst design.
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Imidazolinium based porous hypercrosslinked ionic polymers for efficient CO2 capture and fixation with epoxides
TL;DR: In this paper, an imidazolinium-based porous hypercrosslinked ionic polymers (HIPs) with a high surface area, rich micro/mesoporosity and abundant ionic sites were constructed via the hypercrosslinkage of 2-phenylimidazoline and benzyl halides, in which quaternization and Friedel-Crafts alkylation happened simultaneously to afford ionic networks.
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Tethering Dual Hydroxyls into Mesoporous Poly(ionic liquid)s for Chemical Fixation of CO2 at Ambient Conditions: A Combined Experimental and Theoretical Study
TL;DR: Vicinal dual hydroxyl functional mesoporous poly(ionic liquid)s with large surface area and high ionic liquid (IL) content were synthesized through the copolymerization of epoxy-containing IL monomers and divinylbenzene, followed by ring opening in water as mentioned in this paper.
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Hydrogen bond activation strategy for cyclic carbonates synthesis from epoxides and CO2: current state-of-the art of catalyst development and reaction analysis
TL;DR: In this article, the fixation of CO2 into useful organic compounds has been attracting much attention from the viewpoint of CO 2 emission reduction and energy structure reformation, which is a useful and widely investigable topic.
Journal ArticleDOI
Porous MOF with Highly Efficient Selectivity and Chemical Conversion for CO2.
TL;DR: A new Co(II)-based MOF, {[Co2(tzpa)(OH)(H2O)2]·DMF}n (1), was constructed by employing a tetrazolyl-carboxyl ligand H3tzpa, which possesses high CO2 adsorption capacity and significantly selective capture for CO2 over CH4 and CO in the temperature range of 298-333 K.
References
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Catalysis for the valorization of exhaust carbon: from CO2 to chemicals, materials, and fuels. technological use of CO2.
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CO2 Capture by a Task-Specific Ionic Liquid
TL;DR: A new room temperature ionic liquid incorporating a cation with an appended amine group is produced, comparable in efficiency for CO2 capture to commercial amine sequestering reagents, and yet is nonvolatile and does not require water to function.
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Global challenges and strategies for control, conversion and utilization of CO2 for sustainable development involving energy, catalysis, adsorption and chemical processing
TL;DR: In this paper, the authors proposed to use CO2 for environmentally-benign physical and chemical processing that adds value to the process, using CO2 as an alternate medium or solvent or co-reactant or a combination of them.
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Using carbon dioxide as a building block in organic synthesis
TL;DR: A use of carbon dioxide as a renewable one-carbon (C1) building block in organic synthesis could contribute to a more sustainable use of resources.
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Polymers of intrinsic microporosity (PIMs): organic materials for membrane separations, heterogeneous catalysis and hydrogen storage
Neil B. McKeown,Peter M. Budd +1 more
TL;DR: This tutorial review describes recent research directed towards the synthesis of polymer-based organic microporous materials termed Polymers of Intrinsic Microporosity (PIMs), and demonstrates the potential of PIMs for heterogeneous catalysis and hydrogen storage.