Washable, wearable solar cell developed in Japan
An organic photovoltaic film that is waterproof and flexible could be used on clothes and survive rain and washing, say researchers in Japan.
One potential use of organic photovoltaics is to create wearable electronics—devices that can be attached to clothing to monitor medical devices, for example, without requiring battery changes. However, scientists have found it challenging to achieve waterproofing without the use of extra layers that end up decreasing the flexibility of the film.
Now researchers from the Riken Center for Emergent Matter Science (CEMS) in Saitama have developed an organic photovoltaic film that is both waterproof and flexible, allowing a solar cell to be put onto clothes and still function correctly after being rained on or even washed. They took on the challenge of overcoming a key limitation of previous devices, which is that it is difficult to make them waterproof without reducing the flexibility.
“We plan to further develop our ultrathin organic solar cells so that they can be used for really practical wearable devices.”
Photovoltaic films are typically made of several layers. There is an active later, which captures energy of a certain wavelength from sunlight, and uses this energy to separate electrons and “electron holes” into a cathode and anode.
The electrons and holes can then reconnect through a circuit, generating electricity. In previous devices, the layer transporting the electron holes was generally created sequentially by layering.
For the current work, however, the researchers deposited the anode layer, in this case a silver electrode, directly onto the active layers, creating better adhesion between the layers. They used a thermal annealing process, exposing the film to air at 85 degrees Celsius for 24 hours.
According to Sixing Xiong, first author of a paper published in Nature Communications journal, “It was challenging to form the layer, but we were happy to have accomplished it, and in the end were able to create a film that was just 3 micrometers thick, and we looked forward to seeing the results of tests.”
What the group saw from the testing was very encouraging. First, they immersed the film completely in water for four hours and found that it still had 89% of its initial performance. They then subjected a film to stretching by 30% underwater, some 300 times, and found that even with that punishment, it retained 96% percent of its performance.
As a final test, they ran it through a washing machine cycle, and it survived the ordeal, something that has never been achieved before.
According to another of the paper's authors, Kenjiro Fukuda, “What we have created is a method that can be used more generally. Looking to the future, by improving the stability of devices in other areas, such as exposure to air, strong light, and mechanical stress, we plan to further develop our ultrathin organic solar cells so that they can be used for really practical wearable devices.”
In addition to RIKEN CEMS, the research group included scientists from the University of Tokyo and the Huazhong University of Science and Technology in China.