ion battery IISER Pune can ‘double’ phone’s battery power

A research group at the Indian Institute of Science Education and Research (IISER) of Pune has developed a bonded organic framework that can improve lithium storage capacity
Ion batteries are almost twice as large as commercial ones. The lithium-
Ion batteries power your phone.
It is usually used for a variety of devices including laptops.
The popularity of the battery is its charging function and the ability to continuously charge for a period of time.
"So our goal is to further leverage this capability to encapsulate more power or higher energy density into these batteries in order to be closer to being applied to larger devices, such as electric cars and large power grids.
"In order to achieve this, we need a new li-
Not only is the ion storage material of light
Weight, but also high storage capacity.
R vaidhyangol said: "The development of this organic framework of the bonded bond is to find a way to replace the graphite anode and store more energy at a faster speed, A team of scientists and IISER led the research project.
Graphite anode is commonly used in commercial lithium-
When researchers carefully study the performance of ion batteries,
CON1 (a nitrogen-rich-and oxygen-
Based on the function), the team found it to have similar properties to graphite, which includes a layered structure and stacking organization of layers.
"This discovery prompted us to replace the graphite anode with IISER to test the battery performance.
He explained.
The IISER team works with CSIR-
Professor Satish Ogale of NCL and his team have developed IISER-CON1.
The study was funded by the Ministry of Human Resources Development and the Ministry of Science and Technology of the Government of India.
Vaidhyanathan added that at present, some industries and institutions are competing for cooperation with IISER on the project.
According to the researchers, the test reveals the IISER-
CON1 has many properties of graphite, which is desirable for research, but has additional advantages of higher energy capacity.
Compared with graphite, the specific capacity of IISER-graphite in commercial batteries is 372 mAh/g
CON1 shows the specific capacity of 720 mAh/g, which is retained even after 1,000 charge or discharge cycles.
According to him, the challenge here is to introduce the right components to extend the program in order to use the framework in large batteries.
The title of this article is "high reversible lithium-
Ion storage in self
Triazole tablets
The Organic Nano-flakes of three-methyl-phenol-based bonded bonds have been accepted and published in Advanced Energy Materials, by Satishchandra Ogale, ramangol Vaidhyanathan, king Boti, Haldar Sattwick Debanjan.