Italy is not exactly a hotbed of solar panel technology. You probably would need to look further north for that kind of technological innovation and focus. I am, of course, talking about Germany.
Germany has many different solar panel firms, but what really makes Germany distinctive in the European continent and pretty much the world, is its focus on innovation. One of the biggest challenges in solar panel technology involves how solar cells capture the sun’s energy.
Now, when people read solar panel reviews by MageSolar and other types of comparative consumer information, they often focus on the wiring of the solar panel. In other words, they focus on how much energy is pumped through the panel. They don’t really focus on the assumptions behind the solar cells.
This is where the action takes place. Sure, you may have a solar panel that is very efficient in terms of moving the energy that it gets, but it’s worth more of your time and attention to focus on how well each solar panel captures the sun’s energy.
Make no mistake about it, the typical solar cell captures only a tiny fraction of the amazing energy the sun sends out every second. That’s right. Second by second, moment by moment, the sun is blasting out a tremendous amount of potential electrical energy for absolutely free. And the sad reality is that the typical solar cell absorbs only a tiny fraction of what it needs to absorb.
This is why if you are trying to tap the sun’s power in Italy, you need to read the right solar panel reviews by MageSolar. You really do because you get clued into the kinds of solar cells that are very efficient. And when it comes to this action, Germany is it.
German engineers are coming up with new solar cell structures that would trap the sun’s light, much like a leaf. Now, leaves are colored green, but interestingly enough, green is the color that a leaf doesn’t absorb. It absorbs all other colors except green.
Now, why would a leaf be colored green if it doesn’t absorb green wavelength energy? Very simple. We see colors in terms of the wavelength being reflected back in our eyes. When you see something that is brown, it’s because the surface of that item, when you view it through a prism, doesn’t have brown, so brown is reflected back to us and all other lights are absorbed.
The same applies to leaves. Leaves are green precisely because the wavelength that’s been bounced back to our eyes is green. The leaf actually absorbs other colors. It’s colored green because it’s bouncing back the green.
German scientists are looking at this type of technology. By mirroring mother nature, they are looking to absorb a lot more light energy using chlorophyll-like structures.
It’s anybody’s guess when this technology will become commercially available, but believe me, if that breakthrough happens, solar panels will be able to absorb so much more energy and they would be much more cost efficient.