K,Na掺杂Cu-S纳米晶的水热合成及对结构、性能的影响

利用水热合成技术, 分别以CuCl₂·2H₂O, 硫粉为铜源和硫源, 以KOH或NaOH为矿化剂, 成功合成了Cu₂S纳米晶体和碱金属离子掺杂的KCu₇S₄纳米线和NaCu₅S₃ 微纳米球. 通过X射线衍射(XRD)、电子能谱(EDS)、扫描电镜(SEM)、透射电镜(TEM)和高分辨率透射电镜 (HRTEM) 对产物的结构和形貌进行了表征和分析. 结果显示: KOH含量低于1g或NaOH低于2g时, 产物为斜方辉铜矿Cu₂S; 高碱含量 (不低于3g) 时, K或Na离子成功掺入产物结构中, K掺杂产物为纯净的四方相KCu₇S₄, 单晶结构, 尺寸均匀, 长度可达几十微米的纳米线; Na掺杂未改变产物的形貌, 形成六方晶系结构的NaCu₅S₃. 产物的形成和生长与反应温度、反应时间和矿化剂密切相关. 并讨论了Cu₂S纳米晶及其掺杂纳米晶的形成机理及掺杂机理. 最后研究了碱金属离子掺杂对产物的光学性能的影响, 漫反射光谱显示Cu₂S, KCu₇S₄和NaCu₅S₃纳米晶的光学带隙分别为1.21eV, 0.49eV和0.42eV, K⁺和Na⁺的掺杂, 极大的改变了产物的光学特性. 关键词： 7S₄')" href="#">KCu₇S₄ 5S₃')" href="#">NaCu₅S₃ 水热法 掺杂

Hydrothermal synthesis of K, Na doped Cu-S nanocrystalline and effect of doping on crystal structure and performance

Cuprous sulfide (Cu₂S) nanocrystals and K or Na doped KCu₇S₄ nanowires and NaCu₅S₃ micro-nanospheres have been synthesized successfully by using a simple hydrothermal method, using KOH or NaOH as mineralizing agent, CuCl₂·2H₂O and S powders as copper and Sulfur sources, respectively. The structure and morphology are characterized and analyzed by X-ray diffraction (XRD), energy dispersive X-ray spectrum (EDS), scanning electron microscopy (SEM) and high-resolution transmission electron microscopy (HRTEM). The results reveal that under conditions that the amount of KOH is below 1g or the amount of NaOH below 2 g, the product is of the orthorhombic chalcocite Cu₂S, while with high alkali amount (no less than 3 g), K⁺ or Na⁺ is successfully incorporated into the Cu-S structure; KCu₇S₄ has the pure tetragonal single crystal structure, and its uniform nanowires can be up to several tens of micrometers in length. Na doping has no effect on the morphology of the product, which forms the hexagonal NaCu₅S₃. The formation and growth of the product are closely related to the reaction temperature, reaction time and mineralizing agent. And, the formation and doping mechanisms are discussed. Finally, the influence of the alkali metal ion doping on the optical properties of the product is investigated. The diffuse reflectance spectra demonstrate that the optical band gaps of Cu₂S, NaCu₅S₃ and KCu₇S₄ nanocrystallines is 1.21, 0.49, 0.42 eV, respectively. And K⁺ or Na⁺ doping greatly affects the optical characteristics.
Keywords： 7S₄')" href="#">KCu₇S₄ 5S₃')" href="#">NaCu₅S₃ hydrothermal method doping