< img src = "/uploads/blogs/6e/1f/ib-fqjcghhhhhhhhhhhhhhhhh2_240df4a4.jpg" Alt = "will replace the panels from China: a stable solar element without silicon"/> ~ ~ < p > According to scientists, they managed to eliminate the main drawback < P > The research group from the School of Materials Science and Engineering (USA) has found a way to stabilize perovskit solar elements. About this & nbsp; writes & nbsp; tech xplore.
< p >< iframe width = "560" Height = "314" SRC = "//www.youtube.com/embed/eulwlj72zig" Alowfullscreen = "ALLOWFULLSCREN" >0 ~/IFrame >0 ~/P > < P > As indicated in the edition, most solar panels today & nbsp; made of silicon, but its production and processing require a lot of energy costs, which makes the construction of new production capacity for solar panels expensive.
~ ~ > < P > In addition, most solar cells are produced in China, where there is a rich silicon. In view of this, American manufacturers needed a new material that would be available in the US.< p >“We develop technologies that can be easily produced without spending a lot of money on expensive equipment”, & mdash; said Juan Pablo Correa-Baena, Associate Professor of the School of Materials Studies and Engineering.
< P > As an alternative, a Silicon Research Group led by Correa Baane proposed Perovskit crystals. Perovskit is also effective as silicon, but its service life is 95% smaller than in silicon. The material is particularly sensitive to hot summer temperatures and can be decomposed before the solar panel pays off.< p > Trying to solve this problem, American scientists have found a way to stabilize the perovskitny solar elements that are built as a battery. They have one positive and one negative electrode and the perovskitic element is clamped between them.
< P > Before placed the positive electrode in the upper part of the element, the researchers have exposed the perovskit exposure to titanium gas in a mild vacuum. This process, known as vapor -phase infiltration, introduces titanium into the top layer of the solar element. Thus scientists made one of the layers stronger and more resistant to high temperatures.
< p > “Introducing Titan, we can prevent the degradation process and then try the solar battery on the roof or anywhere else”, & mdash; noted Correa-Baane.
< P > The technology of stabilization, developed by the team, eliminates the main drawback of perovskitic elements, making them more viable for long -term use. The publication believes that this breakthrough can contribute to the introduction of renewable energy in the US.