Graphene Protected Si Nano Spheres (Interconnected) For Developing High Energy Density Li Ion Battery
Subcategory (under Clean Energy): Cross Cutting
Technology Readiness Level (TRL): TRL 4 - Early prototype
Technology Outline (Process Description)
Co-deposition of Si nano-spheres and grapheme has been carried out from ionic liquid bath at room temperature on Au, grapheme coated Cu and Cu substrate. The as coated thin-film is used as negative electrode for Li ion battery. In a CR2032 coin cell, the developed codeposited Si showed a charge capacity of 1040 mAh/g at a current rate of 0.2C after 100 cycle compared to only 254 mAh/g for bare Si.
Salient Features/Advantages
- Si nano-spheres have been stabilized by rapping with graphene in the co-deposition process. The modified electrode showed a better capacity retention than the bare Si counterpart. Higher capacity has been observed in grapheme coated Si electrode as well
Key Outcomes
- Relatively stable Si negative electrode is designed by rapping it with graphene in a single unit operation on Cu substrate
- A higher capacity of 1040 mAh/g has been regis- tered after 100 cycle at 0.2C rate
IP Protection details
- Patent filed (Title, national/International): Nil
- Patents Granted: Nil
- Copyrights obtained /progress on commercialisation /Pl. specify connect with industry: Nil
Contact details (for more information)
- Nodal Person name: Prof. Indrajit Mukhopadhyay
- Email ID: Indrajit.m@sse.pdpu.ac.in
- Organisation name (Relevant link/web page): Pandit Deendayal Energy University
Supporting Photographs/Images
Organizations involved in the development (logo/name) Solar Research and Development Centre, Pandit Deendayal Energy University, Gandhinagar |