Scientists have managed to develop much more efficient solar panels

news hardware Scientists have managed to develop much more efficient solar panels

It’s historical, although we know that an energy crisis is brewing in several countries, scientists have managed to make solar panels much more efficient than usual.

Much more efficient performance

In the past few weeks, there has been a lot of talk about the energy crisis that is sweeping us this winter, when the government is even planning general cuts in certain regions.

The war in Ukraine and the closure of several nuclear power plants are linked to this, and the suspicion that there could be blackouts in France is becoming more likely. Happily, science is advancing in tandem with these concerns, and obviously advances in solar panel technology are well on their way.

Scientists have managed to achieve a better yield than usual with solar panels, thanks to a tandem of silicon and perovskite, a crystal that has the particularity of being able to repair itself. Mass-producing such a connection could be a real solution, but there’s a small problem…

In fact, perovskite is made from an alloy of lead, which is best known for being highly toxic. At the moment, research is progressing to create cleaner materials to address these concerns. However, it is particularly important to note that as usual Solar panels convert only 22% of the sun’s energy into electricity. Now, thanks to this discovery, Scientists have managed to increase the figure to 30.1%, a real revolution that, if used on a large scale, could result in a real feat for humanity.

Silicon Perovskite Solar Panel Cell

Solar panels: the future of renewable energy?

Even if the idea of ​​installing solar panels everywhere enters our heads, You should know that the cost of this technology is still too high to install on a massive scaleeven more among individuals.

The Dutch team of scientists have developed a technique consisting of four silicon and perovskite connectors to better capture solar energy and focus ultraviolet rays more effectively. As you understood, the goal here is to increase the ability to convert this solar energy into usable energy.

The components are currently too expensive, and as I said, too dangerous because of the lead in the perovskite alloy. But indirectly, this revolution allows the Dutch laboratories to envisage the best for the future, in particular by equipping large infrastructures with this type of improved solar panels to reduce costs. With this progress, we imagine that this could develop in a good direction by offering cheaper solar panels in the future, but above all with higher yields and therefore more beneficial for users.


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