Resource Type

Journal Article 4

Year

2023 1

2022 3

Keywords

CaCO3 nanoparticles 1

Co nanoparticles 1

MXene 1

block copolymers 1

flow-like structure 1

imine 1

mechanical property 1

nickel phyllosilicate 1

oxidative self-coupling 1

sacrificial nanofillers 1

sacrificial template 1

selective swelling 1

thermal stability 1

tribological performance 1

ultrafiltration 1

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of polysulfone-based block copolymer ultrafiltration membranes by selective swelling and sacrificing nanofillers

Frontiers of Chemical Science and Engineering 2022, Volume 16, Issue 5,   Pages 745-754 doi: 10.1007/s11705-021-2038-x

Abstract: promoted their porosity and ultrafiltration performances by using CaCO3 nanoparticles as the sacrificialnanofillers.The sacrificial CaCO3 particles provided extra pores and enhanced the connectivity betweenin water permeance with slight decrease in rejection compared to neat membranes without the use of sacrificial

Keywords: block copolymers     selective swelling     ultrafiltration     CaCO3 nanoparticles     sacrificial nanofillers    

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Self-sacrificial templating synthesis of flower-like nickel phyllosilicates and its application as high-performance

Frontiers of Chemical Science and Engineering 2022, Volume 16, Issue 4,   Pages 484-497 doi: 10.1007/s11705-021-2074-6

Abstract: The flower-like nickel phyllosilicate particles were firstly synthesized using a mild self-sacrificial

Keywords: nickel phyllosilicate     flow-like structure     mechanical property     thermal stability     tribological performance    

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Erratum to: Self-sacrificial templating synthesis of flower-like nickel phyllosilicates and its application

Frontiers of Chemical Science and Engineering 2022, Volume 16, Issue 10,   Pages 1531-1531 doi: 10.1007/s11705-022-2241-4

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Cobalt-nanoparticle catalysts derived from zeolitic imidazolate framework@MXene composites for efficient oxidative self-coupling of benzylamines

Frontiers of Chemical Science and Engineering 2023, Volume 18, Issue 1, doi: 10.1007/s11705-023-2378-9

Abstract: In this study, we synthesize a catalyst comprising cobalt nanoparticles supported on MXene by pyrolyzing a composite in a N2 environment. Specifically, the composite comprises a bimetallic Zn/Co zeolitic imidazole framework grown in situ on the outer surface of MXene. The catalytic efficiency of the catalyst is tested for the self-coupling of 4-methoxybenzylamine to produce value-added imine, where atmospheric oxygen (1 atm) is used as the oxidant. Based on the results, the catalyst displayed impressive catalytic activity, achieving 95.4% yield of the desired imine at 383 K for 8 h. Furthermore, the catalyst showed recyclability and tolerance toward benzylamine substrates with various functional groups. The outstanding performance of the catalyst is primarily attributed to the synergetic catalytic effect between the cobalt nanoparticles and MXene support, while also benefiting from the three-dimensional porous structure. Additionally, a preliminary investigation of potential reaction mechanisms is conducted.

Keywords: MXene     sacrificial template     oxidative self-coupling     Co nanoparticles     imine    

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Title Author Date Type Operation

of polysulfone-based block copolymer ultrafiltration membranes by selective swelling and sacrificing nanofillers

Journal Article

Self-sacrificial templating synthesis of flower-like nickel phyllosilicates and its application as high-performance

Journal Article

Erratum to: Self-sacrificial templating synthesis of flower-like nickel phyllosilicates and its application

Journal Article

Cobalt-nanoparticle catalysts derived from zeolitic imidazolate framework@MXene composites for efficient oxidative self-coupling of benzylamines

Journal Article