Tungsten Carbide-Silicon Carbide Nanocomposite Fibers Prepared from Tungsten Nanoparticle Dispersed Polycarbosilane by Electrospinning

Dong-Geun Shin; Kwang-Youn Cho; Eun-Ju Jin

首页> 外文期刊>Journal of Ceramic Processing Research. (Text in English) >Tungsten Carbide-Silicon Carbide Nanocomposite Fibers Prepared from Tungsten Nanoparticle Dispersed Polycarbosilane by Electrospinning

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Tungsten Carbide-Silicon Carbide Nanocomposite Fibers Prepared from Tungsten Nanoparticle Dispersed Polycarbosilane by Electrospinning

机译：钨纳米粒子分散聚碳硅烷电纺丝制备碳化钨-碳化硅纳米复合纤维

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W2C-SiC nanocomposite fibers were fabricated by electrospinning and pyrolysis using tungsten nanoparticle (nW; diameter, 3-5 nm) dispersed polycarbosilane solution. The nW was uniformly dispersed in the electrospun polycarbosilane fibers and transformed into α-W2C during pyrolysis at 1200 °C, where the polycarbosilane-derived SiC fibers acted as a source of carbon and as an effective support for the α-W2C nanoparticles, preventing them from converting into another phase at 1200 °C. A part of the nW dispersed on the fiber surface is considered to transform into α-W2C at the early stages of pyrolysis by carburization with the gases evolved during the pyrolytic decomposition of poly carbosilane, such as CH4.

机译：W2C-SiC纳米复合纤维是通过电纺丝和热解制备的，使用的是纳米碳粉（nW;直径为3-5 nm）分散的聚碳硅烷溶液。 nW均匀地分散在电纺聚碳硅烷纤维中，并在1200°C的热解过程中转变为α-W2C，其中聚碳硅烷衍生的SiC纤维充当碳源并有效支撑α-W2C纳米颗粒，从而防止了它们的产生。从1200°C转变为另一相。分散在纤维表面的一部分nW被认为是在热解的早期阶段通过聚碳硅烷热分解过程中产生的气体（例如CH4）通过渗碳而转化为α-W2C。

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《Journal of Ceramic Processing Research. (Text in English)》 |2013年第4期|共5页
作者
Dong-Geun Shin; Kwang-Youn Cho; Eun-Ju Jin;
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正文语种 eng
中图分类硅酸盐工业;
关键词
Tungsten carbide (W2C); Catalyst; Tungsten nanopowder (nW); Electrospinning; Polycarbosilane; SiC fiber; Catalytic support materials (CSMs).;

机译：碳化钨（W2C）;催化剂;钨纳米粉（nW）;静电纺丝;聚碳硅烷;SiC纤维;催化载体材料（CSMs）。;

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1. Tungsten Carbide-Silicon Carbide Nanocomposite Fibers Prepared from Tungsten Nanoparticle Dispersed Polycarbosilane by Electrospinning [J] . Dong-Geun Shin, Kwang-Youn Cho, Eun-Ju Jin Journal of Ceramic Processing Research. (Text in English) . 2013,第4期

机译：钨纳米粒子分散聚碳硅烷电纺丝制备碳化钨-碳化硅纳米复合纤维
2. Web-type silicon carbide fibers prepared by the electrospinning of polycarbosilanes [J] . Dong-Geun Shin, Doh-Hyung Riu, Hyoun-Ee Kim Journal of Ceramic Processing Research. (Text in English) . 2008,第2期

机译：通过电纺聚碳硅烷制备的网状碳化硅纤维
3. Tungsten carbide electrocatalysts prepared from metallic tungsten nanoparticles for efficient hydrogen evolution [J] . Emin S., Altinkaya C., Semerci A., Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2018,第期

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4. Gasochromic and electrical properties of Pt-nanoparticle-dispersed tungsten oxide thin films prepared by a sol-gel process [C] . Yuki Yamaguchi, Keishi Nishio, Tohru Kineri Materials Research Society Meeting . 2011

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5. Processing and Microstructural Characterization of Silicon Carbide, Silicon Nitride, and Tungsten Carbide Fibers [D] . Garcia, Christian. 2020

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6. Toxicity of Tungsten Carbide and Cobalt-Doped Tungsten Carbide Nanoparticles in Mammalian Cells in Vitro [O] . Susanne Bastian, Wibke Busch, Dana Kühnel, 2009

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Tungsten Carbide-Silicon Carbide Nanocomposite Fibers Prepared from Tungsten Nanoparticle Dispersed Polycarbosilane by Electrospinning

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