1氧化镍纳米复合材料的制备及表征摘要现如今,全球范围内的环境污染问题愈发严峻,本就有限的不可再生资源被人类急剧消耗,使得研讨可再生能源的紧迫性增大。但是 , 类似于风能以及潮汐能等多样化可再生能源动力,往往由于受到来源于自然条件的种种局限,而并不含有相对良好的稳定性,其理论运用效率和范畴被较大限度的限制住了。在此背景下,由于超级电容器表现出尤为显著的贮存性能,可迅速释放出能量,并且富含较高的环保性能,故而全球诸多学者纷纷对其进行如火如荼的各项研究。 在这之 中,至关重要的电极材料,即为各种类型的过渡金属氧化物。而其中尤为关键的当属氧化镍。对于氧化镍而言,当其作为电极材料时,不仅表现出尤其显著的电化学特性,而且还含有极为丰富的理论比容量。氧化镍的获取和制备过程对自然资源和环境是比较友好的,能够保证良好的环保特性。本论文准备用一种较为简单的方法进行了氧化镍纳米复合材料的制备及表征。将在预处理后的碳布上直接电沉积 ZnO 纳米棒阵列,在其上沉积镍纳米颗粒层形成 Ni/ZnO 复合,其次,基于热处理工序,针对既定的 Ni/ZnO 纳米棒阵列,进行相应的局部氧化, 以此来获得性能优良的 Ni/NiO 核 - 壳纳米复合材料, 并据此进行深入细致的电化学基本性能测试。关键词:ZnO;Ni/NiO;核-壳纳米结构;超级电容器2AbstractIn the face of increasing environmental pollution and the increasing consumption of traditional non-renewable energy sources, research and development of clean, environmentally friendly and renewable energy sources is imminent.However, the current stability of renewable energy sources such as wind, solar, and tidal energy is severely affected by natural conditions, limiting their practical application efficiency and range.Supercapacitors have attracted much attention because of their unique storage performance, fast release energy, long service life, good temperature characteristics and environmental protection. They have become the research hotspots, among which supercapacitors with transition metal oxides as electrode materials are the most popular. People pay attention.Among the...
