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澳洲施工论文代写:钙钛矿研究工作的效率优势

钙钛矿电池在太阳能生产中的效率是研究的对象。然而,这项研究也将考虑钙钛矿细胞的问题。一般的研究展望是为阻止钙钛矿被商业使用的稳定性问题制定一个解决方案。例如,虽然大多数研究人员声称钙钛矿电池被认为是一种非常具有商业吸引力的冒险,但人们经常注意到的一个问题是钙钛矿的性质及其固有的矿物结构可能会导致问题。这种形式的关注是基于晶格结构和它如何反应的研究。钙钛矿由钙、钛和氧组成(Snaith et al., 2014;Wu等人,2014)。它形成了CaTiO3结构是这样的它的正离子比它的中心多。

澳洲施工论文代写:钙钛矿研究工作的效率优势

基于钙钛矿研究工作的效率优势,在太阳能利用场景中必须大量生产太阳能电池。然而,从更广泛的意义上讲,阻碍这一技术商业化的,是结构上的担忧,以及其他方面的担忧。在更近期的研究中,我们发现,使用钙钛矿与使用其他太阳能电池相比,虽然能源生产规模更大,但也存在稳定性问题。细胞稳定性问题挑战市场适应性。当代研究人员常常把这一问题归因于它的薄膜和晶格结构。

澳洲施工论文代写:钙钛矿研究工作的效率优势

The efficiency of perovskite cells in solar energy production is the object of investigation. The research will however also consider the issues of Perovskite cells. The general research outlook is to formulate a solution for the stability issues stopping perovskite from being commercially used. For instance, while most researchers claim that the Perovskite cells are seen to be a very commercially attractive venture, an issue that is often noticed is how the nature of Perovskite and its inherent mineral structure could result in issues. This form of concerns is investigated based on the lattice structuring and how it could react. Perovskite is made up of calcium, titanium and oxygen (Snaith et al., 2014; Wu et al., 2014). It forms the CaTiO3 and this structure is such that it has a more positive charged cation than its center.

澳洲施工论文代写:钙钛矿研究工作的效率优势

Given the efficiency advantages based on research works on Perovskite, the solar cells must be produced in a much lots in solar energy use scenarios. However, it is the concerns in structure and more that stops this from being commercially available in a wider sense. In more current research, it is established that although energy production is in a larger scale when perovskites are user as compared to other solar cells, there are issues in stability. Cell stability issues challenge market adaptation. Contemporary researchers often cite this issue as arising from its thin film and its lattice structure .