Compared to traditional silicon-based solar panels, this material offers a higher efficiency in converting sunlight into electricity, which is why its use in conventional solar panels is increasing. By adjusting this material, energy can also be generated from indoor bulbs and other artificial lights. However, this process caused minor defects in the perovskite, making it less efficient and more unstable. A team from National Yang Ming Chiao Tung University in Taiwan has solved this issue using a chemical method, making these solar cells suitable for daily use. This method is called Bandgap adjustment that is not possible in conventional silicon solar cells. According to the recheries this breakthrough means that remote controls and wearable devices can now be charged using this technology.
