Manisha Phadatare

Forskare|Researcher

  • Tjänstetitel: Forskare
  • Akademisk titel: Forskare
  • Avdelning: Institutionen för naturvetenskap (NAT)
  • Telefon arbete: +46 (0)10-1427885
  • E-postadress: manisha.phadatare@miun.se
  • Rumsnummer: S420
  • Ort: Sundsvall
  • Forskningscentra: Fibre Science and Communication Network
  • Anställd vid ämnet: Fysik

Bakgrund

Dr. Manisha Phadatare has earlier worked as an Assistant Professor, in the Department of Medical physics, D. Y. Patil University, Kolhapur in India. She completed her PhD exam in physics in the area of magnetic nanoparticles and its nanofluids for hyperthermia cancer therapy in the Centre for Interdisciplinary Research, D. Y. Patil University, Kolhapur, India, in 2014. After her PhD exam she has worked on the synthesis of core-shell magnetic nanoparticles in order to increase the specific absorption rate of magnetic nanoparticles.
Currently, my research is focused on lithium-ion batteries. Lithium-ion batteries are crucial for a future green energy society. One critical parameter of these batteries is the capacity - how much energy per kilo battery that could be stored. One way to increase the capacity is to replace the graphite in the anode with silicon since it can store much more Lithium ions than graphite. An intensive research effort on this question has led to many high-capacity solutions.
However, many of these solutions will not allow low-cost industrial implementations.
Our research has shown: 1) A high throughput graphene production method that is now implemented industrially. We have demonstrated a new method to grow 10-nanometer silicon nanoparticles on the graphene flakes by a simple thermal treatment of low-cost silicon powder. 3) Using this graphene-silicon composite in the anodes, we have demonstrated a 10% higher capacity over the best commercially available batteries.

Forskningsområden

Nanoscience and Nanotechnology, Lithium-ion Batteries, Energy harvesting, Nanomedicine

Forskning

Batteries, Supercapacitors

Publikationer

Artiklar i tidskrifter

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, ss. 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    

Dhumal, J. , Phadatare, M. , Deshmukh, S. G. & Shahane, G. S. (2020). Enhanced heating ability of Fe–Mn–Gd ferrite nanoparticles for magnetic fluid hyperthermia. Journal of materials science. Materials in electronics, vol. 31, ss. 11457-11469.  

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,  

Rastabi, S. A. , Mamoory, R. S. , Blomquist, N. , Phadatare, M. R. & Olin, H. (2020). Synthesis of a NiMoO4/3D-rGO nanocomposite via starch medium precipitation method for supercapacitor performance. Batteries, vol. 6: 1    

Koli, R. R. , Phadatare, M. R. , Sinha, B. B. , Sakate, D. M. , Ghule, A. V. , Ghodake, G. S. , Deshpande, N. G. & Fulari, V. J. (2019). Gram bean extract-mediated synthesis of Fe3O4 nanoparticles for tuning the magneto-structural properties that influence the hyperthermia performance. Journal of the Taiwan Institute of Chemical Engineers / Elsevier, vol. 95, ss. 357-368.  

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    

Rastabi, S. A. , Mamoory, R. S. , Dabir, F. , Blomquist, N. , Phadatare, M. R. & Olin, H. (2019). Synthesis of NiMoO4/3D-rGO Nanocomposite in Alkaline Environments for Supercapacitor Electrodes. Crystals, vol. 9: 1    

Meshram, J. , Koli, V. B. , Borde, L. C. , Phadatare, M. R. & Pawar, S. H. (2018). Structural, spectroscopic and anti-microbial inspection of PEG capped ZnO nanoparticles for biomedical applications. Materials Research Express, vol. 5: 4  

Meshram, J. , Koli, V. , Phadatare, M. R. & Pawar, S. (2017). Anti-microbial surfaces : An approach for deposition of ZnO nanoparticles on PVA-Gelatin composite film by screen printing technique. Materials science & engineering. C, biomimetic materials, sensors and systems, vol. 73: 1, ss. 257-266.  

Phadatare, M. R. , Meshram, J. V. , Gurav, K. V. , Kim, J. H. & Pawar, S. H. (2016). Enhancement of specific absorption rate by exchange coupling of the core–shell structure of magnetic nanoparticles for magnetic hyperthermia. Journal of Physics D, vol. 49: 9  

Dhawal, S. , Phadatare, M. R. , Kulkarni, G. & Pawar, S. (2014). Gamma radiation levels in the villages of South Konkan, Maharashtra, India. Environmental Earth Sciences, vol. 72, ss. 511-523.  

Salunkhe, A. , Khot, V. , Phadatare, M. R. , Thorat, N. , Joshi, R. , Yadav, H. & Pawar, S. (2014). Low temperature combustion synthesis and magnetostructural properties of Co–Mn nanoferrites. Journal of Magnetism and Magnetic Materials, vol. 352, ss. 91-98.  

Thorat, N. , Otari, S. , Bohara, R. , Yadav, H. , Khot, V. , Salunkhe, A. , Phadatare, M. R. , Prasad, A. & et al. (2014). Structured superparamagnetic nanoparticles for high performance mediator of magnetic fluid hyperthermia: synthesis, colloidal stability and biocompatibility evaluation. Materials science & engineering. C, biomimetic materials, sensors and systems, vol. 42, ss. 637-646.  

Nikam, D. , Jadhav, S. , Khot, V. , Phadatare, M. R. & Pawar, S. (2014). Study of AC Magnetic Heating Characteristics of Co0.5Zn0.5Fe2O4 nanoparticles for magnetic Hyperthermia therapy. Journal of Magnetism and Magnetic Materials, vol. 349, ss. 208-213.  

Khot, V. , Salunkhe, A. , Thorat, N. , Phadatare, M. R. & Pawar, S. (2013). Induction heating studies of combustion synthesized MgFe2O4 nanoparticles for hyperthermia applications. Journal of Magnetism and Magnetic Materials, vol. 332: April, ss. 48-51.  

Khot, V. , Salunkhe, A. , Phadatare, M. R. , Thorat, N. & Pawar, S. (2013). Low-temperature synthesis of MnxMg1− xFe2O4 (x= 0–1) nanoparticles : cation distribution, structural and magnetic properties. Journal of Physics D, vol. 46  

Salunkhe, A. , khot, V. , Thorat, N. , Phadatare, M. R. , Sathish, C. , Dhawale, D. & Pawar, S. (2013). Polyvinyl alcohol functionalized cobalt ferrite nanoparticles for biomedical applications. Applied Surface Science, vol. 264, ss. 598-604.  

Jadhav, S. , Nikam, D. , Khot, V. , Thorat, N. , Phadatare, M. R. , Ningthoujam, R. , Salunkhe, A. & Pawar, S. (2013). Studies on colloidal stability of PVP-coated LSMO nanoparticles for magnetic fluid hyperthermia. New Journal of Chemistry, vol. 37, ss. 3121-3130.  

Salunkhe, A. , Khot, V. , Phadatare, M. R. & Pawar, S. (2012). Combustion synthesis of cobalt ferrite nanoparticles—Influence of fuel to oxidizer ratio. Journal of Alloys and Compounds, vol. 514, ss. 91-96.  

Khot, V. , Salunkhe, A. , Phadatare, M. R. & Pawar, S. (2012). Formation, microstructure and magnetic properties of nanocrystalline MgFe2O4. Materials Chemistry and Physics, vol. 132: 2-3, ss. 782-787.  

Satvekar, R. , Phadatare, M. R. , Karande, V. , Patil, R. , Tiwale, B. & Pawar, S. (2012). Influence of silane content on the optical properties of sol gel derived spin coated silica thin films. International journal of basic and applied sciences, vol. 1: 4, ss. 468-476.  

Phadatare, M. R. , Khot, V. , Salunkhe, A. , Thorat, N. & Pawar, S. (2012). Studies on polyethylene glycol coating on NiFe2O4 nanoparticles for biomedical applications. Journal of Magnetism and Magnetic Materials, vol. 324: 5, ss. 770-772.  

Dhawale, D. , Dubal, D. , Phadatare, M. R. , Patil, J. & Lokhande, C. (2011). Synthesis and characterizations of CdS nanorods by SILAR method : effect of film thickness. Journal of materials science. Materials in electronics, vol. 46, ss. 5009-5015.  

Konferensbidrag

Dhumal, J. , Bandgar, S. S. , Phadatare, M. R. & Shahane, G. S. (2018). Citrate capped Fe0.7Mn0.3Fe2O4 ferrite nanoparticles for hyperthermia. I AIP Conference Proceedings. (AIP Conference Proceedings)