Rohan Patil

Doktorand|Doctoral Student

Research projects

Finished

DRIVE

Litium-ion batteries

Publications

Articles in journals

Thombare, S. , Patil, R. , Humane, R. , Kale, B. , Kalubarme, R. , Malavekar, D. , Phadatare, M. & Lokhande, C. (2024). Exploring silicon nanoparticles and nanographite-based anodes for lithium-ion batteries. Journal of materials science. Materials in electronics, vol. 35: 21    

Thombare, S. , Patil, R. , Humane, R. , Kale, B. , Kalubarme, R. , Malavekar, D. , Khot, S. , Phadatare, M. R. & et al. (2024). Synthesis and characterization of crystalline cristobalite alpha low silicon dioxide nanoparticles : a cost-effective anode for lithium-ion battery. Journal of materials science. Materials in electronics, vol. 35: 20    

Thombare, S. , Patil, R. , Malavekar, D. , Blomquist, N. , Olin, H. , Gavhane, K. , Meshram, J. , Lokhande, C. & et al. (2023). Effect of electrolytes on the performance of graphene oxide anode material for ultracapacitor, Li-ion capacitor, and Li-ion battery : three-in-one approach. Indian Journal of Physics, vol. 97: 10, pp. 2927-2942.  

Zhang, R. , Hummelgård, M. , Örtegren, J. , Andersson, H. , Blomquist, N. , Phadatare, M. , Patil, R. , Arshadi Rastabi, S. & et al. (2022). Triboelectric biometric signature. Nano Energy, vol. 100  

Patil, R. , Phadatare, M. R. , Blomquist, N. , Örtegren, J. , Hummelgård, M. , Meshram, J. , Dubal, D. & Olin, H. (2021). Highly Stable Cycling of Silicon-Nanographite Aerogel-Based Anode for Lithium-Ion Batteries. ACS Omega, vol. 6: 10, pp. 6600-6606.    

Rajoba, S. J. , Kale, R. D. , Kulkarni, S. B. , Parale, V. G. , Patil, R. , Olin, H. , Park, H. , Dhavale, R. P. & et al. (2021). Synthesis and Electrochemical Performance of Mesoporous NiMn2O4 Nanoparticles as an Anode for Lithium-Ion Battery. JOURNAL OF COMPOSITES SCIENCE, vol. 5: 3    

Hong Duc, P. , Horn, M. , Joseph, F. F. , Patil, R. , Phadatare, M. R. , Golberg, D. , Olin, H. & Dubal, D. (2020). Spent graphite from end-of-life Li-ion batteries as a potential electrode for aluminium ion battery. Sustainable Materials and Technologies,  

Phadatare, M. R. , Patil, R. , Blomquist, N. , Forsberg, S. , Örtegren, J. , Hummelgård, M. , Meshram, J. , Hernández, G. & et al. (2019). Silicon-Nanographite Aerogel-Based Anodes for High Performance Lithium Ion Batteries. Scientific Reports, vol. 9    

Licentiate theses, comprehensive summaries

Patil, R. (2023). A scalable furnace technique to grow silicon nanoparticles for high-performance Li-ion battery anodes. Lic. (Comprehensive summary) Sundsvall : Mid Sweden University, 2023 (Mid Sweden University licentiate thesis : 193)  

The page was updated 5/7/2021