About Me
Deepak received his PhD in 2014 from the Reactor Institute Delft at the Delft University of Technology, where he worked on High Performance Batteries (Li- Ion, Li-Sulfur, Na-Ion) that includes probing lithium dynamics in high voltage battery materials, in-situ electrochemistry, tailoring electrode architecture for optimized ionic and electronic transport. In 2015, he made it to finals of Dutch CleanTech Challenge and later have received support from the Yes Delft and the Climate-KIC Accelerator programs for developing low cost energy storage systems. Currently, as a post-doctoral researcher at Inorganic Material Science group he is focus on synthesis and tuning of fast ionic conductors for all solid-state battery, interface engineering, in-situ studies using Neutron and X rays techniques.
Expertise
Electrodes
Solubility
Lifepo4
Olivine
Olivine
Solubility
Retarding
Solubility
Solubility
Phase Transitions
Electrodes
Sulfur Monoxide
Lifepo4
Lithium Sulfur Batteries
Chemical Analysis
Phase Transitions
Defects
Chemical Analysis
Graphite
Thermodynamics
Defects
Olivine
Olivine
Organizations
Publications
Recent
M. Cunha, D., Hendriks, T. A., Vos, C. M., Singh, D. P., & Huijben, M. (2017). Nanoscale mapping of electrochemistry for enhanced solid state batteries. Poster session presented at MESA+ Meeting 2017, Enschede, Netherlands.
Singh, D. P., Soin, N., Sharma, S., Basak, S., Sachdeva, S., Roy, S. S., ... Wagemaker, M. (2017). 3-D vertically aligned few layer graphene – partially reduced graphene oxide/sulfur electrodes for high performance lithium–sulfur batteries. Sustainable Energy & Fuels, 1, 1516-1523. DOI: 10.1039/C7SE00195A
Zhang, X., van Hulzen, M., Singh, D. P., Brownrigg, A., Wright, J. P., van Dijk, N. H., & Wagemaker, M. (2014). Rate-induced solubility and suppression of the first-order phase transition in olivine LiFePO4. Nano letters, 14(5), 2279-2285. DOI: 10.1021/nl404285y
Singh, D. P., George, A., Kumar, R. V., ten Elshof, J. E., & Wagemaker, M. (2013). Nanostructured TiO2 anatase micropatterned three-dimensional electrodes for high-performance Li-ion batteries. Journal of physical chemistry C, 117, 19809-19815. DOI: 10.1021/jp3118659
UT Research Information System
Google Scholar Link
Contact Details
Visiting Address
University of Twente
Faculty of Science and Technology
Carré
(building no. 15), room 3251
Hallenweg 23
7522NH Enschede
The Netherlands
Mailing Address
University of Twente
Faculty of Science and Technology
Carré
3251
P.O. Box 217
7500 AE Enschede
The Netherlands