Guangyuan Yang scite author profile

Guangyuan Yang

4Publications

42Citation Statements Received

128Citation Statements Given

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Affiliations

China Tobacco, Wuhan University of Technology, Hebei University of Engineering

Publications

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Poly(ionic liquid)-Modified Metal Organic Framework for Carbon Dioxide Adsorption

Yang

Peng

et al. 2020

Polymers

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The design and synthesis of solid sorbents for effective carbon dioxide adsorption are essential for practical applications regarding carbon emissions. Herein, we report the synthesis of composite materials consisting of amine-functionalized imidazolium-type poly(ionic liquid) (PIL) and metal organic frameworks (MOFs) through complexation of amino groups and metal ions. The carbon dioxide adsorption behavior of the synthesized composite materials was evaluated using the temperature-programmed desorption (TPD) technique. Benefiting from the large surface area of metal organic frameworks and high carbon dioxide diffusivity in ionic liquid moieties, the carbon dioxide adsorption capacity of the synthesized composite material reached 19.5 cm3·g−1, which is much higher than that of pristine metal organic frameworks (3.1 cm3·g−1) under carbon dioxide partial pressure of 0.2 bar at 25 °C. The results demonstrate that the combination of functionalized poly(ionic liquid) with metal organic frameworks can be a promising solid sorbent for carbon dioxide adsorption.

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Finite element analysis and wear mechanism of B4C–TiB2 ceramic tools in turning AISI 4340 workpieces

Liu

Zhang

Yang

et al. 2022

Ceramics International

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Ceramifiable and mechanical properties of silicone rubber foam composite with frit and high silica glass fiber

Song

Zhang

Qin

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Preparation of YAG nanopowders and ceramics via coprecipitation: Effects of treatment modes of precipitates

Zhang

Yang

Chi

et al. 2022

Int J Applied Ceramic Tech

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Effects of treatment modes of precipitates in the coprecipitation method on the resulting YAG nanopowders and ceramics are investigated. Three treatment modes for precipitates, namely, single water washing, water–ethanol washing, and water washing–ethanol immersion, are conducted to prepare the YAG nanopowders. The average particle size (∼62 nm) and distribution (mainly ranging from 30 to 110 nm) of the powders obtained by the three modes are similar. However, the dispersity of the three powders shows large differences. The nanopowder obtained via water washing–ethanol immersion possesses optimal dispersity without any agglomeration, whereas that obtained via single water washing comprises substantially hard agglomerations. The relative density, Vickers hardness, and optical in‐line transmittance of the ceramics prepared via water washing–ethanol immersion, respectively, reach 99.85%, 14.1 ± .4 GPa, and 77.8% at 1064‐nm wavelengths after spark plasma sintering. These results are markedly superior to those of the ceramics prepared using the two other modes (97.43%, 6.8 ± .7 GPa, and 17.2% at 1064‐nm wavelengths and 98.97%, 10.2 ± .5 GPa, and 47.8% at 1064‐nm wavelengths, correspondingly). Therefore, water washing–ethanol immersion is a sensible and advisable treatment mode of precipitates for preparing YAG nanopowder and ceramics via coprecipitation.

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Guangyuan Yang

Poly(ionic liquid)-Modified Metal Organic Framework for Carbon Dioxide Adsorption

Finite element analysis and wear mechanism of B4C–TiB2 ceramic tools in turning AISI 4340 workpieces

Ceramifiable and mechanical properties of silicone rubber foam composite with frit and high silica glass fiber

Preparation of YAG nanopowders and ceramics via coprecipitation: Effects of treatment modes of precipitates

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