In the past few decades, supercapacitors have been the focus of the research field. As China’s goal of reaching carbon peak and carbon neutrality are proposed, renewable energy will become the main body of electricity supply in the future. Energy storage technology can play an important role in increasing the proportion of renewable energy consumption and ensuring the safe and stable operation of the power system. 

As an energy storage device that can quickly store and release electrical energy, supercapacitors have the characteristics of high power density, short charge and discharge time, long service life, good temperature characteristics, energy saving and environmental protection. They have entered the fast lane of industrialization, but there are still many technical problems that limit the continuous improvement of performance and the further reduction of cost. Among them, the electrode material is a key element affecting the performance and production cost of supercapacitors, and it is also the focus of research by scholars around the world. At present, porous carbon materials, metal oxides and conductive polymers have been used in the research and application of electrode materials of supercapacitors, but they have not been applied on a large scale because of the high price and the cumbersome and difficult processing techniques. 

Tanovus' electrode materials for supercapacitors have demonstrated excellent performance advantages on industrial production lines. We welcome manufacturers with material upgrade needs to contact us for collaborations.

\The rapid development of the electrical vehicle market has created a boom in the power battery market. Since 2014, the installed capacity of power batteries has seen a rapid increase compared to 2013. The growth rate of installed power batteries from 2014 to 2015 was over 300%. From 2016 to 2018, China’s power battery capacity increased rapidly. The installed capacity is also increasing with the sales of electrical vehicles. However, the "2019 New Energy Vehicle Consumer Market Research Report" stated the the low mileage was the main reason why consumers gave up buying pure electric vehicles, accounting for 46%. Under the constraints of vehicle space and quality, the energy density of battery has to be increased to improve the mileage of electric vehicles. Choosing more advanced materials to improve battery energy density and charging and discharging performance has become one of the current key research directions in the field of power batteries.  

Tanovus technology has wide applications in the battery market and can increase the energy density of lithium ion batteries and achieve rapid charge and discharge performance. We have worked with well-known international companies to develop customized products for different battery systems. Tanovus is also designing electrode materials for the next-generation battery systems and is continuously innovating to contribute to a sustainable world.

Natural gas is a clean fuel with huge reserves and is expected to become one of the main energy sources for the next generation of auto transportation industry. However, the storage and transportation of natural gas have great challenges, limiting the development of its applications. Using porous adsorption material for natural gas storage is one of the top solutions. When the storage pressure of the adsorbed gas is less than 500 PSI, users could use ordinary household gas line with a simple pump to fuel the cars, achieving low cost and high convenience. The performance of the existing adsorption materials is still below the practical application level. Preliminary tests have shown that Tanovus' materials are very promising, and have great potential to be widely used in the gas storage market. 

Tanovus is in the process of further improving the materials for gas storage to increase energy storage efficiency for sustainable development.