Why do crustaceans hold the key to the future of the electric car? The key lies in the shell.
Electric batteries have become a benchmark in the automotive industry. For years, the battery-powered car has become an alternative that has proven to be able to replace conventional internal combustion technologies. Still, there are various problems that relate to the properties of batteries. The lack of autonomy standards and, of course, the provision of an accelerated degradation in certain cases, means that it has not yet been accepted by the public.
Now, what if I told you that crustaceans can have the key to the electric car? A new study recently published on the Mattel portal has shown important advances when it comes to investigating the properties of the shells of many crustaceans. Some other component that serves as a shield can have a great future in the mobility market and, therefore, it is expected that the investigations will continue throughout the coming months. It is a technology that bases its differentiation on the presence of chitin.
Thanks to the use of chitin, which is present in large quantity in shells From many crustaceans, it is possible to achieve batteries that are much more resistant to the passage of time and with a level of qualities superior to current standards. Let’s see, therefore, what are the elements that make this organic material have a great future in the automotive industry. After all, we are dealing with products that are currently discarded due to lack of utility.
Crustaceans can set the pace of innovation around the electric car
Manufacturers and companies outside the mobility sector are carrying out important studies to find the ‘Holy Grail’. Why could the electric car of the future be especially linked to the use of crustacean shells? The use of chitin has been shown to be differential in electric batteries. In fact, thanks to its incorporation into the equation, it has been possible to establish efficiencies close to 99% as regards the degradation of the sets.
In fact, achieve this figure after 1,000 attempts demonstrates why we are facing a step further in terms of mobility. Currently, the electric car has a whole series of advantages over conventional internal combustion technologies. Still, not even Tesla has managed to maintain such a high volume of mileage to be done over time. This type of battery, thanks to the presence of chitin, has made it possible to retain such a volume of capacity after a thousand cycles.
Without a doubt, we are facing the future use of a component that we currently reject. After all, the usefulness of the shell of crabs and other crustaceans is hardly useful after the death of the animal. This new technology could open the way for new solutions of this kind with the aim of reach higher levels of autonomy and minor degradations of the sets.