While Europe presents the first photovoltaic city, in another part of the world it is a remarkable city material which could lead to a new era for conventional solar panels. It should be noted that this energy instrument is the intermediary that ensures that sunlight serves as energy for us. The design is simple, effective and allows self-consumption, which promotes sustainability.
One hour of sunshine would be enough to meet the energy needs of all humanity for a year. In these moments of energy transition, solar energy is seen as an alternative for the future. They have been used for decades solar panels with the associated achievement of great results. However, the large ecological footprint left by fossil fuels has led to the need to further exploit solar energy.
In this context, specialized companies and sector experts are working on significant improvements to this technology. In fact, a certain country is printing solar panels with a curious material that could mark a milestone.
Solar panels are now history: this country prints them with this remarkable material
Las first perovskite solar cells printed roll-to-roll achieve record levels of efficiency. This scientific advancement was led by the international team of researchers Commonwealth Scientific and Industrial Research Organization (CSIRO) of Australia. They have made significant progress in terms of efficiency printed flexible solar cellsthe data of which has been published in the journal Nature communication.
This milestone not only marks a record in this area, but also opens up new possibilities for the use of solar energy. CSIROthe main government agency of Australia for scientific research, has been a pioneer. Under his leadership, the effectiveness of these printed and flexible solar cells has been demonstrated, and they are on the verge of commercialization.
The concept of flexible solar cells and printed is not new, but what makes this discovery important is the efficiency levels achieved and the feasibility of mass production. These flexible solar cells are printed by CSIRO have shown that they can achieve an efficiency of 15.5% on a small scale and of 11% in modules of 5 cm2, setting a record for fully printed solar cells.
It is the first case where printed flexible solar cells are fully produced on this scale and category roll-to-rollsimilar to those used in newspaper printing. Conventional silicon solar panels, known for being heavy and stiff, have significant limitations on where they can be deployed.
Solar panels change forever with this material
The printing solar cells on flexible plastic films It uses a variety of options to attach solar energy to virtually any surface, from buildings to vehicles, boats, caravans, trains, clothing and wearable technology.
According to the information from the research, it is predicted that flexible solar cells will be printed CSIRO withstand the effects of cosmic rays, an element that could compromise the performance and integrity of conventional solar cells. Furthermore, these cells are expected to perform better than traditional cells in conditions where sunlight falls at non-optimal angles.
He Dr. Kimberly Clayfielddirector of the space program CSIROemphasizes that printed flexible solar cells can provide a reliable and lightweight energy solution that can be applied to future space operations and exploration.
Ultimately, the solar panels They could no longer be as we know them today. A scenario that has already been tried with the sphere that fills with water and multiplies the sun’s rays by 10,000.