The energy sector in particular is constantly looking for new technological developments solar panels, which can facilitate the daily life of the population in general, on the other hand, a balance is also sought that promotes the well-being of society and at the same time that of the environment. A recent scientific breakthrough has found a way to build solar panels from your home community.
These were the barriers that made making solar panels at home a challenge
For the construction of photovoltaic cells It is extremely necessary to protect them to avoid damage, due to their great fragility. For this it is necessary to protect these cells with glass and place them in a metal frame that can be sufficiently resistant. This results in large, heavy solar panels.
To provide a solution to this specific problem, the Massachusetts Institute of Technology (MIT) has been conducting a series of projects and discoveries since 2017 to to obtain a photovoltaic model viable enough to be produced on a large scale and then distributed in the industry, a fact that has just happened with a recent innovation.
His revolutionary invention was to build a series of panels with the feature that could put an end to the problems encountered in their implementation in various fields, and that is that these new panels weigh 100 times less than traditional panels. Since this is a major technological advancement, it can be incorporated into prestigious projects, bringing endless benefits.
Endless benefits: They surpass traditional solar panels by a wave
Despite this great find, the weight wouldn’t be the main attraction, and that’s that eighteen times the efficiency of the panels currently distributed at the industrial level. This is due to the use of nanomaterials in the development of innovative technology that will completely change the rules of the game.
The key to using the above hand materials is to form an ink base which then prints a thin film, so thin that it is fifteen microns thick. After this, a screen printing technique, similar to that used in the manufacture of t-shirt prints, is used to finally apply a thin layer to the formed film and fix the photovoltaic ink there.
This process in question would be relatively feasible, and most importantly, it would be a viable large-scale measure so that it would be effective in the energy sector. The project in question is gaining momentum within green and sustainable energies and is an attractive alternative in its implementation in various architectural structures.
An efficiency never seen before in the energy sector
According to recently conducted tests by scientists from ONE Lab, these photovoltaic panels would not only be printable via the method mentioned above, but also have a large power of up to 370 watts per kilogram, making them very effective due to their power. .
In terms of weight, the experts compared the weight of an installation on the roof of a house, which would weigh almost half a ton, while the plates made with micromaterials would result in a total weight of 25 kilos in total. Its application would require a larger space.
These continued innovations could spell the end of high CO2 emissions, significantly reducing the major environmental impact that threatens ecological well-being on a global level. Well, this material can be used in multiple industries, from providing energy to irrigate thousands of hectares of agriculture to implementing it in cars for personal use.