ZIF‐8‐Nanocrystalline Zirconosilicate Integrated Porous Material for the Activation and Utilization of CO<sub>2</sub> in Insertion Reactions

Srivastava, Diksha; Rani, Poonam; Srivastava, Rajendra

doi:10.1002/asia.202000001

Cited by 11 publications

(6 citation statements)

References 44 publications

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“…The unique physicochemical properties of MOFs and MOF-derived metal/metal oxide nanocomposites have been widely explored in photocatalysis. − MOFs can also act as a template for synthesizing metal/metal oxide decorated nanoporous carbon with tunable structural properties . Several MOFs and MOF-derived metal/metal oxide nanocomposites have been reported for unique catalytic applications. − Kar et al synthesized Cu–Cu 2 O/C and CuO-Cu 2 O/C by systematically carbonizing the Cu-BTC MOF and demonstrated the C–C, C–N cross-coupling reaction under conventional thermal catalytic conditions . Herein, the aim is to develop a sustainable photocatalyst having a good light absorption ability and reactivity for the C–C Sonogashira cross-coupling reaction.…”

Section: Introductionmentioning

confidence: 99%

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu₂O–CeO₂/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Kar

Srivastava

2022

Inorg. Chem.

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The development of an economical transition metalbased catalyst for photocatalytic carbon−carbon coupling reactions is aspiring. Herein, a Cu−Ce metal−organic framework (MOF) was synthesized and carbonized to produce bimetallic Cu 2 O−CeO 2 /C, which was utilized in the Sonogashira cross-coupling reaction. The defects and oxygen vacancies in the catalyst were characterized by Xray photoelectron spectroscopy and Raman spectroscopy, while the nature of Cu was characterized by H 2 -TPR analysis. The defectinduced MOF-derived Cu−Ce heterojunction created more oxygen vacancies (O V ) in CeO 2 , revealing the high photocatalytic activity. The Cu−Ce heterojunction (Cu 2 O−CeO 2 /C) formed a Cu(I)− phenylacetylide active complex and exhibited higher catalytic activity for the visible light-induced Sonogashira cross-coupling reaction. 25% Cu 2 O−CeO 2 /C offered 93.8% phenylacetylene conversion with a 94.2% Sonogashira product selectivity by using household light-emitting diodes. No discernible activity loss was observed from the recycling of the catalyst. Based on catalytic activity, control reactions, and physicochemical and optoelectronic characterization, the structure−activity relationship was established and a reaction mechanism was proposed. Replacement of the costly Pd metal-based catalyst with a cheap Cu 2 O−CeO 2 -based catalyst for the synthesis of commercially important compounds with a sustainable visible light-induced catalytic process will be highly attractive to chemists and industrialists.

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Section: Introductionmentioning

confidence: 99%

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu₂O–CeO₂/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Kar

Srivastava

2022

Inorg. Chem.

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“…In recent years, along with growing concerns about multidisciplinary integration, imidazoles have shown considerable potential in materials science [18–19] . Zeolitic imidazolate frameworks (ZIFs) material is formed by the self‐assembly of imidazole and transition metal Zn(II) or Co(II) coordination, which not only combines the structural advantages of natural zeolite and metal framework materials but also overcomes the shortcomings of poor thermal stability and chemical stability of traditional metal‐organic framework materials to a certain extent [20–21] . ZIF‐8, as a classic ZIFs material, is obtained by the coordination assembly of Zn(II) and 2‐methylimidazole [22] .…”

Section: Introductionmentioning

confidence: 99%

“…[18][19] Zeolitic imidazolate frameworks (ZIFs) material is formed by the self-assembly of imidazole and transition metal Zn(II) or Co(II) coordination, which not only combines the structural advantages of natural zeolite and metal framework materials but also overcomes the shortcomings of poor thermal stability and chemical stability of traditional metal-organic framework materials to a certain extent. [20][21] ZIF-8, as a classic ZIFs material, is obtained by the coordination assembly of Zn(II) and 2-methylimidazole. [22] With its excellent physical and chemical properties and flexible modifiability, continued exploration has been carried out in catalysis, separation and adsorption, electrochemistry, biomedicine, and sensors.…”

Section: Introductionmentioning

confidence: 99%

Imidazole‐Based Energetic Materials: A Promising Family of N‐Heterocyclic Framework

Xie

Pei

Cai

et al. 2022

Chemistry An Asian Journal

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Imidazole represents a fascinating class of explosophoric units with exciting structures and unique properties. As compared to other nitrogen-rich heterocycles, imidazole demonstrates great potential applications due to economic effectiveness and superior energetic performances. The field of traditional chemistry has been extensively explored for imidazole, and thus established bond-building methods and functionalization strategies promote further development as high-energy density materials (HEDMs). This review addresses the development of energetic imidazole compounds in the past decade, summarizes their physiochemical properties, and is divided into three parts (explosives, propellants, and energetic biocides) according to application requirements. Various synthetic strategies for these energetic molecules are highlighted, including the construction of heterocyclic frameworks and following functionalization. The selected and discussed reactions illustrate the versatility of imidazole in energetic applications as building blocks for the future design of new HEDMs.

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“…Zeolite imidazolate frameworks (ZIFs) [ 21 , 22 , 23 ] have arisen as a novel type of highly porous materials along with the advantages in the field of conventional MOF catalyst. By using ZIFs as solid acid catalysts, several organic transformation reactions have been carried out, such as Knoevenagel condensation [ 24 , 25 ], aldol condensation [ 26 , 27 ], Suzuki cross-coupling [ 28 , 29 ], Friedel–Crafts alkylation [ 30 , 31 ], and epoxide ring-opening reaction [ 32 , 33 ]. Current research in this area has been mostly focused to develop low-cost reusable recycling green catalysts to support sustainable development.…”

Section: Introductionmentioning

confidence: 99%

A Reusable Efficient Green Catalyst of 2D Cu-MOF for the Click and Knoevenagel Reaction

Naskar

Maity

et al. 2021

Molecules

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[Cu(CPA)(BDC)]n (CPA = 4-(Chloro-phenyl)-pyridin-4-ylmethylene-amine; BDC = 1,4-benzenedicarboxylate) has been synthesized and structurally characterized by single crystal X-Ray diffraction measurement. The structural studies establish the copper (II) containing 2D sheet with (4,4) square grid structure. The square grid lengths are 10.775 and 10.769 Å. Thermal stability is assessed by TGA, and subsequent PXRD data establish the crystallinity. The surface morphology is evaluated by FE-SEM. The N2 adsorption−desorption analysis demonstrates the mesoporous feature (∼6.95 nm) of the Cu-MOF. This porous grid serves as heterogeneous green catalyst with superficial recyclability and thermal stability and facilitates organic transformations efficiently such as, Click and Knoevenagel reactions in the aqueous methanolic medium.

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ZIF‐8‐Nanocrystalline Zirconosilicate Integrated Porous Material for the Activation and Utilization of CO₂ in Insertion Reactions

Cited by 11 publications

References 44 publications

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu₂O–CeO₂/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu₂O–CeO₂/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Imidazole‐Based Energetic Materials: A Promising Family of N‐Heterocyclic Framework

A Reusable Efficient Green Catalyst of 2D Cu-MOF for the Click and Knoevenagel Reaction

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ZIF‐8‐Nanocrystalline Zirconosilicate Integrated Porous Material for the Activation and Utilization of CO2 in Insertion Reactions

Cited by 11 publications

References 44 publications

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu2O–CeO2/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu2O–CeO2/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Imidazole‐Based Energetic Materials: A Promising Family of N‐Heterocyclic Framework

A Reusable Efficient Green Catalyst of 2D Cu-MOF for the Click and Knoevenagel Reaction

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ZIF‐8‐Nanocrystalline Zirconosilicate Integrated Porous Material for the Activation and Utilization of CO₂ in Insertion Reactions

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu₂O–CeO₂/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction

Cu–Ce Bimetallic Metal–Organic Framework-Derived, Oxygen Vacancy-Boosted Visible Light-Active Cu₂O–CeO₂/C Heterojunction: An Efficient Photocatalyst for the Sonogashira Coupling Reaction