片层WC/C的原位合成及其在甲醇氧化中的应用

以片层二硫化钨(WS2)为前驱体,氯化钠(Na Cl)为介质,CO为气体碳源,采用程序升温法一步合成片层碳化钨/碳复合材料(WC/C)。通过X射线衍射(XRD),X射线近边吸收谱(XANES)和扫描电镜(SEM)等一系列手段对样品的化学组成、形貌、结构等进行表征。研究发现,在高温渗碳过程中,不仅利用WS2的片层结构和Na Cl的锚定作用合成了具有薄层孔洞的WC,而且Na Cl和WS2金属面对碳膜生长的催化作用使WC表面覆有原位生长的碳膜,为电子传输提供了有效通道。将该材料作为载体材料进行电化学性能测试,结果表明:负载少量Pt后制得的Pt/WC/C电催化剂,在甲醇氧化反应(MOR)中表现出良好的电催化活性、稳定性及优异的抗CO中毒能力。

In Situ Synthesis and Application in Methanol Oxidation of Lamellar WC/C

The layered tungsten carbide/carbon composite (WC/C) was synthesized by a programmed temperature method using tungsten sulfide (WS₂) as a precursor, sodium chloride (NaCl) as a medium and CO as a gas carbon source. The chemical composition, morphology and structure of the samples were characterized by XRD, XANES and SEM respectively. A thin layered WC with holes has been synthesized because of the natural lamellar structure of WS₂ and the anchoring effect of molten NaCl during high-temperature carburization. In addition, NaCl and the metal surface of WS₂ could be used as the catalyst for in situ growing of carbon film on the surface of WC effectively, which provides a useful channel for electronic transmission. The electrocatalytic performance of the Pt/WC/C electrocatalyst was investigated after loading a small amount of Pt on WC/C. The results show that the Pt/WC/C electrocatalyst exhibits a better electrocatalytic activity and stability, also a higher resistance toward CO poisoning in methanol oxidation (MOR).