Solvent engineering for highly-efficient tin perovskite solar cells ; Lösungsmitteltechnik für hocheffiziente Zinn-Perowskit-Solarzellen
In: urn:nbn:de:kobv:517-opus4-630375;; (2024)
Online
Hochschulschrift
Zugriff:
Global warming, driven primarily by the excessive emission of greenhouse gases such as carbon dioxide into the atmosphere, has led to severe and detrimental environmental impacts. Rising global temperatures have triggered a cascade of adverse effects, including melting glaciers and polar ice caps, more frequent and intense heat waves disrupted weather patterns, and the acidification of oceans. These changes adversely affect ecosystems, biodiversity, and human societies, threatening food security, water availability, and livelihoods. One promising solution to mitigate the harmful effects of global warming is the widespread adoption of solar cells, also known as photovoltaic cells. Solar cells harness sunlight to generate electricity without emitting greenhouse gases or other pollutants. By replacing fossil fuel-based energy sources, solar cells can significantly reduce CO2 emissions, a significant contributor to global warming. This transition to clean, renewable energy can help curb the increasing concentration of greenhouse gases in the atmosphere, thereby slowing down the rate of global temperature rise. Solar energy’s positive impact extends beyond emission reduction. As solar panels become more efficient and affordable, they empower individuals, communities, and even entire nations to generate electricity and become less dependent on fossil fuels. This decentralized energy generation can enhance resilience in the face of climate-related challenges. Moreover, implementing solar cells creates green jobs and stimulates technological innovation, further promoting sustainable economic growth. As solar technology advances, its integration with energy storage systems and smart grids can ensure a stable and reliable energy supply, reducing the need for backup fossil fuel power plants that exacerbate environmental degradation. The market-dominant solar cell technology is silicon-based, highly matured technology with a highly systematic production procedure. However, it suffers from several drawbacks, such as: 1) ...
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Solvent engineering for highly-efficient tin perovskite solar cells ; Lösungsmitteltechnik für hocheffiziente Zinn-Perowskit-Solarzellen
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Autor/in / Beteiligte Person: | Hussein, Mahmoud |
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Quelle: | urn:nbn:de:kobv:517-opus4-630375;; (2024) |
Veröffentlichung: | 2024 |
Medientyp: | Hochschulschrift |
DOI: | 10.25932/publishup-63037 |
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