Building N‐Heterocyclic Carbene into Triazine‐Linked Polymer for Multiple CO<sub>2</sub> Utilization

Yue, Chengtao; Wang, Wenlong; Li, Fuwei

doi:10.1002/cssc.202002154

Cited by 25 publications

(8 citation statements)

References 73 publications

(127 reference statements)

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“…64,65 In addition, the hysteresis behavior observed in CO 2 adsorption isotherms indeed supports the favorable interaction of CO 2 with the NHC sites. [66][67][68] Furthermore, a selective gas adsorption study (Fig. 2C) revealed negligible uptake of CH 4 and N 2 with the estimated Henry selectivity constants of 58 and 53 for CO 2 /CH 4 and CO 2 /N 2 , respectively (Fig.…”

Section: Gas Adsorption Analysismentioning

confidence: 99%

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO₂ from a dilute gas under ambient conditions

Das

Parihar

Nagaraja

2022

Inorg. Chem. Front.

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Section: Gas Adsorption Analysismentioning

confidence: 99%

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO₂ from a dilute gas under ambient conditions

Das

Parihar

Nagaraja

2022

Inorg. Chem. Front.

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“…In this regard, several strategies have been employed for modulation of the pore surfaces to induce selective gas adsorption property in the framework by the incorporation of Lewis acidic/basic sites and immobilization of polar functional groups (-NO 2 , -NH 2 , -CONH 2 , -CF 3 , etc.) (Yue et al, 2020). On the other hand, CO 2 has gained considerable interest as a renewable, non-toxic, inexpensive, and an abundant C1 building block for high-value chemicals and fuels (Sakakura et al, 2007;Chu, 2009;Jacobson, 2009).…”

Section: Introductionmentioning

confidence: 99%

Metal-Free Heptazine-Based Porous Polymeric Network as Highly Efficient Catalyst for CO2 Capture and Conversion

Sharma¹,

Ugale²,

Kumar³

et al. 2021

Front. Chem.

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The capture and catalytic conversion of CO2 into value-added chemicals is a promising and sustainable approach to tackle the global warming and energy crisis. The nitrogen-rich porous organic polymers are excellent materials for CO2 capture and separation. Herein, we present a nitrogen-rich heptazine-based microporous polymer for the cycloaddition reaction of CO2 with epoxides in the absence of metals and solvents. HMP-TAPA, being rich in the nitrogen site, showed a high CO2 uptake of 106.7 mg/g with an IAST selectivity of 30.79 toward CO2 over N2. Furthermore, HMP-TAPA showed high chemical and water stability without loss of any structural integrity. Besides CO2 sorption, the catalytic activity of HMP-TAPA was checked for the cycloaddition of CO2 and terminal epoxides, resulting in cyclic carbonate with high conversion (98%). They showed remarkable recyclability up to 5 cycles without loss of activity. Overall, this study represents a rare demonstration of the rational design of POPs (HMP-TAPA) for multiple applications.

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“…The hydrogenation of nitroarenes to corresponding amines catalyzed by transition metals and the N -formylation reaction of amines with CO 2 in the presence of silanes using Lewis bases as catalysts have been well researched previously. − However, the integration of the above two reactions into a one-pot tandem reaction is scarcely reported, which is obviously a much more economical strategy for CO 2 fixation due to its lowered energy/time consumption in operation, reduced intermediate loss, and improved product yields. Herein, relying on our designed bifunctional core–shell ZrO 2 /C@ x -Co-NC catalysts with active Co NPs and ZrO 2 NPs for hydrogenation and N -formylation, respectively, this tandem reaction is realized and optimized under mild reaction conditions.…”

Section: Results and Discussionmentioning

confidence: 99%

Bifunctional Catalysts with Core–Shell Distributed ZrO₂ and Co Nanoparticles Derived from MOF-on-MOF Heterostructures for Economical One-Pot Tandem CO₂ Fixation

Qin

Chen

et al. 2023

ACS Catal.

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The N-formylation of aryl amines with CO 2 is an emerging strategy to simultaneously reduce carbon emission and produce high-value formamides. Considering that aryl amines are usually produced from the hydrogenation of their corresponding nitroarenes in the chemical industry, the one-pot tandem hydrogenation−formylation of nitroarenes with CO 2 to formamides is obviously a much more economical but still unexploited strategy for efficient CO 2 fixation. Herein, we report the rational synthesis of bifunctional catalysts with core−shell distributed ZrO 2 and Co nanoparticles (NPs) from the controlled pyrolysis of a ZIF-67-on-UiO-66 heterostructure for this one-pot tandem reaction. To fabricate such MOF-on-MOF heterostructures, we develop a facile surfactant-assisted strategy to seed ZIF-8 nuclei on the UiO-66 surface, followed by the successful growth of a thickness-controlled ZIF-67 shell on the UIO-66 core. Based on further pyrolysis, the highly mesoporous derivants with core−shell distributed ZrO 2 and Co NPs can be obtained, of which the reductive Co and Lewis basic ZrO 2 can serve as highly active sites for the hydrogenation of nitroarenes and the N-formylation of aryl amines with CO 2 , respectively, due to their favorable electronic structures and good mass diffusion of reactants/intermediates. Impressively, the optimized core−shell catalyst achieves a much higher yield of N-(4methoxyphenyl)formamide (99.5%) than its ZrO 2 /C (0%), Co-NC (14.1%), and physically mixed counterparts (52.3%) for the one-pot tandem hydrogenation−formylation between 4-nitroanisole and CO 2 with good recyclability and a broad substrate scope, shedding light on the rational design of efficient bifunctional catalysts for this tandem CO 2 fixation reaction.

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Building N‐Heterocyclic Carbene into Triazine‐Linked Polymer for Multiple CO₂ Utilization

Cited by 25 publications

References 73 publications

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO₂ from a dilute gas under ambient conditions

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO₂ from a dilute gas under ambient conditions

Metal-Free Heptazine-Based Porous Polymeric Network as Highly Efficient Catalyst for CO2 Capture and Conversion

Bifunctional Catalysts with Core–Shell Distributed ZrO₂ and Co Nanoparticles Derived from MOF-on-MOF Heterostructures for Economical One-Pot Tandem CO₂ Fixation

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Building N‐Heterocyclic Carbene into Triazine‐Linked Polymer for Multiple CO2 Utilization

Cited by 25 publications

References 73 publications

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO2 from a dilute gas under ambient conditions

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO2 from a dilute gas under ambient conditions

Metal-Free Heptazine-Based Porous Polymeric Network as Highly Efficient Catalyst for CO2 Capture and Conversion

Bifunctional Catalysts with Core–Shell Distributed ZrO2 and Co Nanoparticles Derived from MOF-on-MOF Heterostructures for Economical One-Pot Tandem CO2 Fixation

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Building N‐Heterocyclic Carbene into Triazine‐Linked Polymer for Multiple CO₂ Utilization

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO₂ from a dilute gas under ambient conditions

Strategic design of a bifunctional Ag(i)-grafted NHC-MOF for efficient chemical fixation of CO₂ from a dilute gas under ambient conditions

Bifunctional Catalysts with Core–Shell Distributed ZrO₂ and Co Nanoparticles Derived from MOF-on-MOF Heterostructures for Economical One-Pot Tandem CO₂ Fixation