Given the extent of technological advancements in the last couple of decades, an era of relatively more impactful inventions has begun. The rise in the need and the usage of electronic devices has led to an increase in the demand for batteries that run these devices. With the enormous potential of graphene batteries in terms of their applications, these batteries have become the latest trend in the electronics industry, especially the industry for portable electronics. In the portable electronics industry, specifically for smartphones, the life of these increases by five times and the phones charge at a significantly faster rate than the conventional lithium-ion batteries.
Graphene batteries with a greater number of possibilities
There are a great number of possibilities that arise with the use of graphene batteries. The rise in these possibilities is essential for overcoming the limitations of conventional batteries like lithium-ion batteries, which are responsible for putting a halt to the development and expansion of various industries like the automobile, telecom, space and defence, especially the portable electronics device industry. These industries are reliable in effectively functioning batteries for appropriate functioning and positive performance outcomes. Still, with the current state of energy-storing batteries like lithium-ion batteries, the industries are unable to innovate the way in which they should due to the various energy storage and efficacy related limitations. The advent of graphene batteries has brought a revolution in terms of their capabilities that make them a suitable choice for the electronics industry. The extraordinary properties of graphene, including extensively high storage capacity and overall efficiency, have enabled a level of functionality that had not been witnessed previously.
Graphene batteries enabling portable devices to perform better
Graphene batteries have enabled portable electronic devices to last for a longer span of time and perform very effectively. The minimal technological and environmental drawbacks that are associated with it promises sustainability in the electronic industry. Graphene batteries in electric vehicles can offer higher capacity, reduced charging time, and stability in terms of temperature, allowing electric vehicles to become more commercially and technologically viable than ever before. Lithium-ion batteries for electric cars enable the vehicle to cover a fair amount of distance but does not offer great performance results for a number of customers in terms of justifying purchasing an electric vehicle over a gas-fuelled vehicle.
Conventional batteries like lithium-ion batteries approach maximal efficiency quickly, and novel technology demands a greater supply of power in the same span of time. Innovations like smartphones and electric vehicles require greater energy storage to perform, which is fulfilled by the graphene batteries. For smartphones, in addition to high capacity, high electrical and heat conductivity for better dissipation of heat is also essential to prevent the phones from getting heated up and exploding. These explosions pose a problem to the safety of the users and are caused by chemical imbalances in the batteries, which is very unlikely in the case of graphene batteries.
Conclusion
C6 Energy’s graphene batteries allow for a greater surface to mass ratio and its other offerings make it a suitable choice for portable devices that are an upcoming and vital part of the electronics industry.