Farewell, Perovskit from Russia: The first diamond solar panel conquers the world

Russia was an important player in the development of perovskit solar elements, but diamond solar panels are now attracting the attention of the world. That is why this technology causes a hype, especially in Asia, which can abandon Russian Perovskit, says in the material. Diamond photocells are the last breakthrough in photoelectric technology. Made of high -strength synthetic diamonds, these panels have properties that can make a revolution in solar energy.

Unlike silicon, which can be destroyed under the influence of extreme heat or radiation, the natural strength and thermal conductivity of the diamond allow it to work effectively in a wider range of environments. This quality can be crucial in regions with high -temperature climate, for example, in some parts of Asia. Diamond solar panels can exceed silicon -based analogues, especially in extreme conditions.

The ability of a diamond to effectively dissipate heat prevents the reduction of productivity, which is a common problem of silicon elements over time. The unique property of such devices is their adjustable width of the prohibited area, which enables them to absorb a wider spectrum of light, including UV rays. Silicon panels have restrictions on wave lengths that they can absorb, which reduces their efficiency.

Diamond panels can be accurately configured to optimize light absorption, which will lead to higher energy production. The potential of new type photocells to increase energy production can play a vital role in reducing fossil fuel dependence, making solar energy more viable in the future. Despite their great advantages, diamond solar panels face a significant problem: the cost of production.

Although synthetic diamonds are cheaper than natural ones, their large -scale production remains expensive. This is due to the complexity of the process of chemical deposition from the steam phase (CVD), which involves the creation of diamond layers by decomposing the carbon of gas mixture at high temperatures in a vacuum chamber. Reducing production costs is important in order to make diamond solar panels with the main energy solution.

Researchers are working on improving CVD and other production technologies for more efficient production of high quality diamond layers. Diamond devices can ensure unsurpassed durability and efficiency in environments such as cosmos or high radiation regions, compared to silicon or perox cells. If you can reduce production costs, diamond solar panels, from high -rise buildings to large solar farms, they can soon be more widely used.