Flexible Solar Panels

Solar panels are the way to go now, and they're what people are using to help save money down the line, but also to help save the environment. There is a big cost savings with solar panels that you might not get with other forms of energy to power the home. Let's take a look at flexible solar panels.

Flexible panels are an incredibly low-footprint, affordable, and convenient way to get introduced to solar power. There are small panels, and they go all the way up to 12v panels. You can get flexible solar panels that meet nearly every lifestyle, budget, and application. There are a ton of uses of flexible panels, and they include things like solar power systems that are portable,boat, automative, and RV solar charging systems, solar battery charging systems, and off-grid, low-cost PV systems for cabins and homes. You can also buy them for solar testing, training, and educational projects.


Flexible panels, if they can achieve enough technological maturity, can be used as window shades and wall paper for making electricity from room lighting. They can also be built into clothing, which can then be used to charge electronic devices that are portable, like media players and mobile phones. There are lots of novel uses for flexible solar panels. There are a number of innovative and new uses for this burgeoning technology.

Flexible cell research is a technology that's at the research level, and there was an example of it created at the Massachusetts Institute of Technology where solar cells were made by putting photovoltaic material onto the outside of flexible substrates, like ordinary paper, and it used chemical vapor deposition technology too. The technology for making cells on paper was made by a bunch of researchers from MIT with help from the National Science Foundation.

With conventional panels, the panel's supporting structures like brackets, glass, etc. are up to twice as costly as the photovoltaic materials that are manufactured on top of them. Paper costs about a thousandth of the cost of glass, and cells that use printing processes can be a lot cheaper to make than panels that are conventional. Other methods that involve coating papers with materials to counter-act the roughness of the paper. In this method, however, the photovoltaic material can be coated onto paper that's untreated.

If the cost of panels can go down a lot, then it will open a ton of uses for them that wouldn't have been feasible before, and on a wide level too. It will open the doors to lots of people using technology in their daily lives whereas before they couldn't get their hands on it because of cost. It will also open up the doors to mass production of powered products. When flexible solar panels are merged with 3D printing, it could open up the doors to a number of new and interesting products that couldn't have even be conceived before.

Flexible Solar Panels