美国论文代写:钙钛矿细胞的稳定性问题

美国论文代写:钙钛矿细胞的稳定性问题

钙钛矿电池正受到广泛的研究,因为它可以用于高效的太阳能利用。与现有的太阳能电池相比,这些电池本身产生的二氧化碳也更少。尽管具有商业上的优势,但由于稳定性问题,钙钛矿电池并没有得到广泛的应用,这项工作旨在为稳定性问题找到解决方案。

美国论文代写:钙钛矿细胞的稳定性问题

尽管钙钛矿细胞有很多优点,但在使用中也存在一些问题。稳定性常被认为是主要问题。研究人员认为,从长远来看,薄膜层不太稳定,这意味着即使在低成本生产优势,它更可能需要经常更换,因此,优点是不持久的钙钛矿细胞也不能使用被称为可持续。第二,在使用这些细胞的过程中存在着沉积形成的问题。在保持薄层均匀性的过程中,关键是长期内不鼓励任何沉积。因此,这再次挑战了它的稳定使用。最后,和大多数太阳能电池一样,这些电池也面临着腐蚀问题。腐蚀作用导致电池完全损耗。热稳定性问题也引起了关注。这些问题挑战了大规模生产力的维度。

美国论文代写:钙钛矿细胞的稳定性问题

The Perovskite cells is being researched extensively because of how it can be made use for efficient solar energy harnessing. The cells themselves also produce lesser carbon gas compared to existing solar cell implementations. Despite this commercially advantageous position, the Perovskite cells are not used widely because of stability issues, and this work proposes to find a solution for stability concerns.

美国论文代写:钙钛矿细胞的稳定性问题

Despite the advantages of the perovskite cells, there are also issues in its use. Stability is often cited as the main issue . Researchers have argued that in the long term, the thin film layers are less stable, and this means even if there are advantages in low cost production, it might need to be replaced more often and hence the advantage is not long lasting nor can the perovskite cell use be termed as sustainable . Second, there are issues in deposit formation in the use of these cells. In maintaining thin layer uniformity, it is critical that no deposit would be encouraged over the long term. Therefore, this again challenges its stable use. Finally, as with most solar cells, these cells are also seen to suffer the issues of corrosion. Corrosion effect leads to complete wastage of the cell. Thermal stability concerns are also noticed. These concerns challenge the mass productivity dimension .

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