The article Supercapensators: fur -like plastic could end the energy crisis by Felix Baumann first appeared on Basic Thinking. You always stay up to date with our newsletter.
So -called supercapacitors can absorb energy extremely quickly and release it again. Researchers have now discovered a fur-like plastic that could revolutionize battery technology and end the energy crisis.
Imagine that there is a battery that is charged in a few seconds, survives thousands of charging cycles and is still environmentally friendly. That may sound like science fiction, but could soon become a reality. Because researchers recently made progress with so -called plastic super capacitors.
A UCLA team developed this A new methodwith which a special plastic called Pedot can be transformed into a “fluffy” structure that can store a lot more energy than before.
What makes plastic super capacitors so special?
Pedot has been known in the electronics for a long time, for example as a protective layer against static charging or in touchscreens. However, the material has had a problem so far: it was not particularly good at saving electrical energy. But a solution lies in the change in the structure of the material – in a way through which it receives more surface. Because with plastic supercapacitors: the more surface, the more energy it can be saved.
The new supercapsators are a kind of energy storage – similar to a battery, but with an important difference: the capacitor does not save the energy chemically, but purely electrically, directly on the surface of its electrodes. This can charge and discharge much faster than conventional batteries. This seems ideal for possible applications such as electric cars, camera flashes or devices that require fast energy checks.
Fury nanofibers for maximum performance
The new pedot nanofibers that the researchers have developed look like poet lawn or fur under the microscope-hence the description. This structure ensures that a large amount of electrical load can be saved. In fact, the new plastic super capacitor is almost ten times more energy than previous models and over 100,000 charging cycles – without losing performance.
In a world that is increasingly dependent on renewable energies, it urgently need flexible, efficient and durable storage solutions. Batteries often reach their limits. Be it because of their lifespan, recycling or the charging speed. The newly developed technology could therefore have a major influence. It not only offers promising performance values, but can also be produced inexpensively and scalable.
Also interesting:
- Gafam, or: How Big Tech dominates the global economy
- Google: Deactivate “Overview with AI” – that’s how it works
- Gemini: Everything you need to know about the Google Ki
- Claude: Everything you need to know about the Anthropic Ki
The article Supercapensators: fur -like plastic could end the energy crisis by Felix Baumann first appeared on Basic Thinking. Follow us too Google News and Flipboard.
Supercapacitors have long been seen as a promising technology for energy storage, with their ability to charge and discharge quickly and efficiently. The idea of using a fur-like plastic material to enhance the performance of supercapacitors is intriguing and could potentially revolutionize the energy storage industry.
By incorporating this fur-like material into supercapacitors, it could increase the surface area of the electrodes, allowing for greater energy storage capacity. This could lead to more efficient and longer-lasting energy storage solutions, potentially helping to alleviate the energy crisis by providing a reliable and sustainable source of power.
However, as with any new technology, there are likely to be challenges and limitations that need to be addressed before this fur-like plastic can be effectively integrated into supercapacitors on a large scale. It will be important for researchers and engineers to conduct thorough testing and optimization to ensure that the material performs as expected and meets the necessary safety and reliability standards.
Overall, the potential for fur-like plastic to enhance supercapacitors and help address the energy crisis is exciting and promising. With continued research and development, this technology could play a significant role in shaping the future of energy storage and sustainability.
Credits