Department of Physics

Research

Overview

The department has major contribution in research since establishment and progressing. We have best research collaborations across India and abroad. The department has vibrant U.G. course in Physics and planning to start P.G. course along with Ph.D. program in near future.

Research Areas

The department is centered in 02 areas of research. First is the field of Material Science which includes Thin Film, Solar Cell, Supercapacitor, Gas Sensing, Smart Window etc. The second field is Space Physics Research which includes upper atmosphere, ionosphere, Solar wind interaction with Earth’s Magnetic field, geomagnetic storms, gravity waves, Equatorial Plasma Bubbles etc.

Publications

1. Deposition of β-In2S3 Photosensitive Thin Films by Ultrasonic Spray Pyrolysis, ES Energy & Environment, Vol. 12, P 52-59, 2021, ISSN-2578- 0646(p), 2578-0654 (online)
2. Thin Zn1 – xMnxO Films (x = 1–4 at %) by Chemical Bath Deposition: Influence of Dopant Concentration, International Journal of Self-Propagating High-Temperature Synthesis, , 2021, Vol. 30, No. 2, pp. 100–105. Allerton Press, Inc., 2021., ISSN 1061-3862
3. Phase Transformation from In2S3 to CuInS3using Ultrasonic Spray Pyrolysis, International Journal of Engineering, Science and Mathematics, Vol.6 (7) Nov-2017, P-417-423, ISSN: 2320-0294
4. Engineering the Properties Of Zinc Oxide (Zno) Thin Film For Dilute Magnetic Semiconductor Via Ni Incorporation, Global Journal Of Multidisciplinary Studies, Volume-5, Issue-12, November 2016, ISSN 2348-0459
5. Control Growth of ZnO nanorods by Chemical Bath Deposition: study on Heat Treatment effect, Asian J. of Multidisciplinary studies, 4(13), (2016) 171, ISSN: 2321-8819
6. Eco-friendly Physicocultural-based Rapid Synthesis Nanoparticles, RSC Advances, 6 (2016) ISSN 48420–48426
7. Hexamethylenetetramine-mediated TiO2 films: Facile chemical synthesis strategy and their use in nitrogen dioxide detection, Materials Letters, 173 15 June (2016) 9-12, ISSN: 0167-577X
8. Synthesis and electrochemical super capacitive performance of Ni–manganese ferrite composite films, J. of Analytical and Applied Pyrolysis , Volume 116, (Nov. 2015),177-182, ISSN:0165-2370
9. Molar Concentration Dependant Structural and Optical performance of Metal (Zn) Oxide Thin Films derived from Chemical Spay, Asian J. of Multidisciplinary studies, 3 (12), (2015), 35-39, ISSN: 2321-8819
10. Effect of Concentration of Precursor on Intrinsic ZnO Thin Films by Spray Pyrolysis, Asian J. of Multidisciplinary studies, Vol. Issue (5), May 2014, P: 109-113 , ISSN: 2321-8819
11. Effect of pH on the Properties of ZnO thin Films Grown by Chemical Bath Deposition, IJSR - International J. Scientific Res., Vol. : 2,( 4), Apr. 2013, P: 329-331, ISSN:2277– 8179
12. Role of concentration and temperature on well-aligned ZnO nanorod by low temperature wet chemical bath deposition method, Archives of Physics Research, 2012, 3 (5):P:401-406, , ISSN: 0976-0970
13. Liquefied petroleum gas sensing properties of sprayed nanocrystalline zinc oxide thin films, Sensors and Actuators A:Physical, 189 (2013) 339– 343 , ISSN: 0924-4247
14. Roughness-based monitoring of transparency and conductivity in boron-doped ZnO thin films prepared by spray pyrolysis, Materials Research Bulletin , 47 (2012) 4257-4262 , ISSN:0025-5408
15. Nanocrystalline ZnO Films deposited by Spray Pyrolysis: Effect of Gas Flow Rate, International , J. of self-Propagating high Temp.Synthesis, , Vol.21 (3) June (2012)178-182 ,
16. Nitrogen-doped ZnO shells: Studies on optical transparency and electrical Conductivity , Materials Research Bulletin , 47 (2012) 1246–1250, ISSN:0025-5408
17. StudieStudies on Nanostructured ZnO thin films deposited by spray pyrolysis, Asian J. of Biochemical &Pharmaceutical Research, , Issue3, Vol.1 (2011) 391, ISSN:2231-2560
18. Back Backing impact on photoelectrochemical cells performance of electrodeposited CdSe films. J. of Phys. and Chem. of Solids, , Vol. 72, (2011) 1122-1127 ,
19. Infl Influence in high quality zinc oxide films and their photo electrochemical performance; Journal of Alloys and Compounds , 503 (2010), 416-421)
20. Metal Metal oxide (ZnO) thin films deposited by spary pyrolysis technique: Effect of solution concentration. , Bharati Vidyapeeth Uni. Res. Jou. , VII (2 ) (2010) 80
21. Depos Deposition and characterization of transparent and conductive sprayed ZnO:B thin films. J. of Phys. and Chem. of Solids, Vol. 66, (10) (2005) 1779-1782
22. Fluorine-doped zinc oxide transparent and conducting electrode by chemical spray synthesis, Applied Surface Science, , V 254, (20) 15 August (2008), 6294-6297
23. Preparation of transparent and conducting boron-doped ZnO electrode for its application in dye-sensitized solar cells, Solar Energy Materials and Solar Cells, , V 93(4),April (2009) 524-527,
24. Dye-sensitized solar cell and electrochemical supercapacitor applications of electrochemically deposited hydrophilic and nanocrystalline tin oxide film electrodes, Current Applied Physics, , V 9 (1) January (2009) 87-91,
25. Electrochemical capacitive properties of spray-pyrolyzed copper-ferrite thin films. , Current Applied Physics, V ,(1)1,January (2009) S98-100 ,
26. Mu Multiple band gap energy layered electrode for photoelectrochemical cells, Current Applied Physics, , V 9(2) March (2009) 384-389,
27. Field emission of bismuth Sulphide upright- standing platelets, , Journal of Applied Physics, , Vol 103 (2008) 1. ,
28. Electrodiposition of Cadmium Selenide Thin Films in Acidic and Alkaline Media, , Bharati Vidyapeeth Uni. Res. Jou. , VI (1) (2008) 62-68,
29. Effect of substrate temperature on optical properties of EB-PVD deposited silicon oxynitride thin films., Advances in Optical Thin Films, SPIE, 5250, (2003) 676-684.,
30. Enhancement in physical properties of transparent conducting ZnO film by Al incorporation, Physics and Technology of Thin Films, , (2004), 344-354.,
31. Preparation and characterization of Transparent Conductive impurity doped ZnO films Films; Pyrolysis technique. , Recent Adv. Renewable Energy Technology., ( 2002), 167-173, Role of Rise Husk in Energy Crises; Excitement in Science for Youth, (1986), 125-130.,
32. Opto-electronic and Photovoltaic properties of HW-CVD deposited a-SiG:H/mc-Si:H multilayer structures., proceedings, 2nd IC on Cat-CVD Process, 2002, , Denver,Colorado, U.S.A. pp.107, (2002),
33. Role of filament temperature on HW-CVD deposited a-Si:H films, proceedings, 2nd IC on Cat-CVD Process, 2002, Denver,Colorado, U.S.A. pp.307, (2002)
34. Influence of process pressure on Electrical, Optical and Structure properties of a-Si:H films deposited by HW-CVD., proceedings, 2nd IC on Cat-CVD Process, 2002, Denver,Colorado, U.S.A. pp.311, (2002)
35. The effect of substrate temperature on HW-CVD deposited a-Si:H films., proceedings, 2nd IC on Cat-CVD Process, 2002, Denver,Colorado, U.S.A. pp.315, (2002)

1. Structural, electrical, and optical properties of TiO2 doped WO3 thin films Applied Surface Science 252 (2005) 1643–1650 P.S. Patil , S.H. Mujawar , A.I. Inamdar , P.S. Shinde , H.P. Deshmukh , S.B. Sadale
2. Structural, optical and electrical characterization of spray-deposited TiO2 thin films Materials Science and Engineering B 130 (2006) 220–227 H.P. Deshmukh, P.S. Shinde , P.S. Patil
3. Properties of mixed molybdenum oxide–iridium oxide thin films synthesized by spray Pyrolysis Applied Surface Science 252 (2006) 8371–8379 P.S. Patil , R.K. Kawar , S.B. Sadale, A.I. Inamdar , H.P. Deshmukh
4. Effect of film thickness on electrochromic activity of spray deposited iridium oxide thin films Materials Chemistry and Physics 99 (2006) 309–313 P.S. Patil , S.H. Mujawar , S.B. Sadale , H.P. Deshmukh, A.I. Inamdar
5. Spray deposited titanium oxide thin films as passive counter electrodes Electrochimica Acta 52 (2007) 3114–3120 P.S. Shinde , H.P. Deshmukh, S.H. Mujawar , A.I. Inamdar , P.S. Patil
6. Synthesis of electrochromic vanadium oxide by pulsed spray pyrolysis technique and its properties J. Phys. D: Appl. Phys. 42 (2009) 025404 (7pp) C E Patil, N L Tarwal, P S Shinde, H P Deshmukh and P S Patil
7. From beads-to-wires-to-fibers of tungsten oxide: electrochromic response Applied Physics A: Materials Science and Processing 97-2 (2009) 323-330 P.M. Kadam , N.L. Tarwal, P.S. Shinde, R.S. Patil , H.P. Deshmukh , P.S. Patil
8. Efficient electrochromic nickel oxide thin films by electrodeposition Journal of Alloys and Compounds 489 (2010) 667–673 A.C. Sonavane, A.I. Inamdar, P.S. Shinde, H.P. Deshmukh, R.S. Patil , P.S. Patil
9. Simple and rapid synthesis of NiO/PPy thin films with improved electrochromic Performance Electrochimica Acta 55 (2010) 2344–2351 A.C. Sonavane , A.I. Inamdar , D.S. Dalavi , H.P. Deshmukh , P.S. Patil
10. Multicoloured electrochromic thin films of NiO/PANI J. Phys. D: Appl. Phys. 43 (2010) 315102 (8pp) A C Sonavane, A I Inamdar, H P Deshmukh and P S Patil
11. Enhanced optical modulation due to SPR in gold nanoparticles embedded WO3 thin films Journal of Alloys and Compounds 509 (2011) 1729–1733 P.M. Kadam, N.L. Tarwal, P.S. Shinde, S.S. Mali, R.S. Patil, H.P. Deshmukh, P.S. Patil
12. Electrochromic performance of mixed V2O5–MoO3 thin films synthesized by pulsed spray Pyrolysis technique Materials Chemistry and Physics 126 (2011) 711–716 C.E. Patil , P.R. Jadhav, N.L. Tarwal, H.P. Deshmukh, M.M. Karanjkar, P.S. Patil
13. Enhanced electrochromic performance of f-MWCNT-WO3 composite Electrochimica Acta 58 (2011) 556– 561 P.M. Kadam, N.L. Tarwal, S.S. Mali, H.P. Deshmukh, P.S. Patil
14. Farming of ZnO nanorod-arrays via aqueous chemical route for photoelectrochemical solar cell application CERAMICS INTERNATIONAL 38-8 (2012) 6461-6467 S.A. Vanalakar, S.S.Mali, R.C.Pawar, D.S.Dalavi, A.V.Mohalkar, H.P Deshmukh P.S. Patil
15. Studies on an antimicrobial activity of metal (Mn, Fe, Co, Ni, Cu) chelates of 1, 2-naphthoquinone 2-oxime International Journal of Chemical Sciences 11-3 (2013) 1286-1298 SRG Jadhav V.B., Deshmukh H.P., Gonewar N.R., Jadhav K.D.
16. Electrochromic properties of vanadium oxide thin films prepared by PSPT: Effect of substrate temperature AIP Conference Proceedings 1536 (2013) 517-518 PPS Patil C.E., Jadhav P.R., Tarwal N.L., Deshmukh H.P., Karanjakar M
17. Chemical functionalization of carbon nano tube AIP Conference Proceedings 1536 -1 (2013) 249-250 SH Pisal, NS Harale, SA Pawar, HP Deshamukh, PS Patil
18. Electrochromic performance of the mixed V2O5-WO 3 thin films synthesized by pulsed spray pyrolysis technique Current Applied Physics; 14-3 (2014) 389-395 PS Patil C.E., Tarwal N.L., Jadhav P.R., Shinde P.S., Deshmukh H.P.
19. Development of Zn2SnO4 thin films deposited by spray pyrolysis method and their utility for NO2 gas sensors at moderate operating temperature Journal of Analytical and Applied Pyrolysis 107 (2014) 233-241 RKY Ganbavle V.V., Patil M.A., Deshmukh H.P.
20. Functionalized Multi-Walled Carbon Nanotubes for Nitrogen Sensor Journal of Applied Chemistry 7-11 (2014) 49-52 SH Pisal, NS Harale, TS Bhat, HP Deshmukh, PS Patil
21. Hydrothermal synthesis of rutile TiO2 bottle brush for efficient dye-sensitized solar cells Journal of nanoparticle research 16-6 (2014) 2406 SS Mali, JV Patil, PM Kadam, HP Deshamukh, CS Shim, PS Patil.
22. Quantum dots sensitized solar cells for conversion of energy in future International Journal of Innovative Knowledge Concepts, 3-12 (2015) Sudhir D.Vavale, Deepti H. Deshmukh and Harish P. Deshmukh.
23. Characterization techniques for TiO2 thin films Asian Journal of Multidisciplinary Studies 4-4 (2016) S.S. Shukla, H.P. Deshmukh
24. Synthesis and characterization of zinc stannate thin films prepared by spray pyrolysis technique
Journal of Materials Science: Materials in Electronics 27 (12), 12323-12328 MA Patil, SH Mujawar, VV Ganbavle, KY Rajpure, HP Deshmukh
25. Electrochromic Properties of Copper Oxide (I) Thin Films Energy and Environment Focus 5 (3), 195-199 BB Dhale, SH Mujawar, HP Deshmukh, PS Patil
26. Preparation, characterization of 1D ZnO nanorods and their gas sensing properties Ceramics International 44 (2018) 3333–3340 Supriya B. Jagadale, Vithoba, L. Patil, Sharadrao A. Vanalakar, Pramod S. Patil, Harish P. Deshmukh.
27. Nanorods to nanosheets structural evolution of NixZn1-xO for NO2 gas sensing application Journal of Alloys and Compounds 766 (2018) 941e951 Supriya B. Jagadale , Vithoba L. Patil, Sawanta S. Mali , Sharadrao A. Vanalakar , Chang K. Hong, Pramod S. Patil , Harish P. Deshmukh .
28. Hydrothermal method for Synthesis of different Nanostructure Metal Oxide thin film. International Journal of Innovative Knowledge Concepts, 6(11) November, (2018) DOI 11.25835/IJIK-321 Sudhir D, Sunil G. Pawar, Deepti, H. Deshmukh, Harish P. Deshmukh
29. Rutile TiO2 Nanoflowers acquire by using simple hydrothermal method for Efficient Dye Sensitized Solar Cell International journal of basic and applied research.9–1 (2019) 2278-0505 Sudhir D.Vavale and Harish P. Deshmukh
30. Fast response and highly selective nitrogen dioxide gas sensor based on Zinc Stannate thin films
Materials Science for Energy Technologies, 3 (2020) 36-42 Patil, M.A., Ganbavle, V.V., Rajpure, K.Y., Deshmukh, H.P., Mujawar, S.H.
31. Investigation Of Solar Cell Performance Of Rutile TiO 2 Thin Films Obtained By Chemical Bath Deposition Method Journal of scientific research 65-1 (2021) 1-8 S.S. Shukla, H. P. Deshmukh
32. Photoelectrochemical properties of nanoflake‐like cadmium sulfide‐sensitized Zn 2 SnO 4 thin film electrodes prepared by chemical methods MA Patil, HP Deshmukh, PS Patil, SH Mujawar, H Im, AI Inamdar International Journal of Energy Research 46 (12), (2023) , 17706-17713

1. Onkar B. Gurav, Rupesh N. Ghodpage*, Parashram T. Patil, Sripathi Samireddipalle, Ashok K. Sharma, Alok K. Taori and Dadaso J. Shetti, Occurrence climatology of equatorial plasma bubbles (EPBs) using optical observations over Kolhapur, India during solar cycle-24, Annals of Geophysics, 63 (6), 2020, 10.4401/ag-8068. Impact Factor: 1.78
2. O. B. Gurav, V. L. Narayanan, A. K. Sharma*, R. N. Ghodpage, H. P. Gaikwad, P. T. Patil, Airglow imaging observations of some evolutionary aspects of equatorial plasma bubbles from Indian sector, Advances in Space Research, 2019, https://doi.org/10.1016/j.asr.2019.04.008. Impact Factor: 1.52
3. D. J. Shetti, O. B. Gurav and G. K. Seemla, Occurrence characteristics of equatorial plasma bubbles and total electron content during solar cycle peak 23rd to peak 24th over Bangalore (13.02o N, 77.57o E). Astrophys Space Sci, 364, 156 (2019), Impact Factor: 1.681
4. O. B. Gurav, A. K. Sharma*, R. N. Ghodpage, D. P. Nade, G. A. Chavan, H. P. Gaikwad and P. T. Patil, Zonal drift velocity of Equatorial Plasma Bubbles during ascending phase of 24th solar cycle using All Sky Imager over Kolhapur, India. Journal of Geophysical Research: Space Physics, 123, 2018, https://doi.org/10.1029/2018JA025810. Impact Factor: 2.75
5. A. K. Sharma, O. B. Gurav*, G. A. Chavan, H. P. Gaikwad, R. N. Ghodpage, P. T. Patil, Variation in occurrence of equatorial plasma bubbles (EPBs) using All Sky Imager from low latitude station Kolhapur (16.8oN, 74.2oE, 10.6oN dip. Lat.), Advances in Space Research, 60, 2452–2463, 2017, Impact Factor: 1.52
6. A. K. Sharma, O. B. Gurav, S. Gurubaran, G. A. Chavan, D. P. Nade, H. P. Gaikawad, R. N. Ghodpage, P. T. Patil, and S. S. Nikte, “Variations in Zonal Drift of equatorial Plasma Bubbles (EPBs) Over Kolhapur (16.4o N, 74.2o E 10.6o dip. lat.),” Proceedings of Emerging Trends in Basic and Applied Sciences (ETBAS), Gargoti, 1–8, 2015.
7. A. K. Sharma, O. B. Gurav*, H. P. Gaikwad, G. A. Chavan, D. P. Nade, R. N. Ghodpage, P. T. Patil. Study of Equatorial Plasma Bubbles using All Sky Imager and Scintillation Technique from Kolhapur Station: A Case Study, Astrophysics and Space Science, 363:83, 2018, Impact Factor: 1.88
8. A. K. Sharma, O. B. Gurav*, Anindya Bose, H. P. Gaikwad, G. A. Chavan, Atanu Santra, S. S. Kamble, R. S. Vhatkar, Potential of IRNSS/NavIC L5 signals for ionospheric studies, Advances in Space Research, 2019, 0273-1177, https://doi.org/10.1016/j.asr. 2019.01.029. Impact Factor: 1.52
9. R. N. Ghodpage*, Alok Taori, O. B. Gurav, P. T. Patil, G. P. Naniwadekar, S. Gurubaran, Devendraa Siingh, “Wave signature in the upper mesospheric temperature and their association with the wind fields at low latitude”, Advances in Space Research, Accepted, April 2019. Impact Factor: 1.52
10. R. N. Ghodpage*, P. T. Patil, O. B. Gurav, S. Gurubaran and A. K. Sharma, Ionospheric response to major storm of 17th March 2015 using multi-instrument data over low latitude station Kolhapur (16.8oN, 74.2oE, 10.6oN dip. Lat.), Advances in Space Research, 62, 624–637, 2018, Impact Factor: 1.52
11. H. P. Gaikwad, A. K. Sharma*, O. B. Gurav, G. A. Chavan, D. P. Nade, P. T. Patil, S. S. Nikte, G. P. Naniwadekar, Seasonal, annual, and interannual variability in MLT quasi- two-day waves over the low-latitude region Kolhapur (16.8°N; 74.2°E), Advances in Space Research, 0273-1177, 2019, https://doi.org/10.1016/j.asr.2018.12.029. Impact Factor: 1.52
12. A. K. Sharma, G. A. Chavan*, H. P. Gaikwad, O. B. Gurav, D. P. Nade, S. S. Nikte, R. N. Ghodpage, P. T. Patil, Study of ionospheric irregularities from Kolhapur (16.4oN, 74.2oE), Journal of Atmospheric and Solar-Terrestrial Physics, 1–7, 2017, Impact Factor: 1.75
13. A. K. Sharma, G. A. Chavan*, O. B. Gurav, H. P. Gaikwad, R. N. Ghodpage, D. P. Nade, Dynamics of ionospheric irregularities in increasing phase of 24th solar cycle at Kolhapur [16.4o N, 74.2o E], Advances in Space Research, 60, 2195–2205, 2017, Impact Factor: 1.52
14. G. A. Chavan, A. K. Sharma*, O. B. Gurav, H. P. Gaikawad, D. P. Nade, S. S. Nikte, R. N. Ghodpage and P. T. Patil, Dependence of coherence scales of ionospheric scintillation patterns on magnetic activity, MAPAN-Journal of Metrology Society of India, 2016, Impact Factor: 0.6
15. A. K. Sharma, H. P. Gaikwad*, M. Venkat Ratnam, O. B. Gurav, L. Ramanjaneyulu, G. Chavan, S. Sathishkumar, Diurnal, monthly and seasonal variation of mean winds in the MLT region observed over Kolhapur using MF radar, Journal of Atmospheric and Solar-Terrestrial Physics, 169, 91–100, 2018, Impact Factor: 1.75
16. D. P. Nade, D. J. Shetti, A. K. Sharma*, A. Taori, G. A. Chavan, P. T. Patil, R. N. Ghodpage, O. B. Gurav, and S. S. Nikte, Geographical analysis of equatorial plasma bubbles by GPS and nightglow measurements, Advances in Space Research, 56, 1901– 1910, 2015, Impact Factor: 1.52
17. S. S. Nikte*, D. P. Nade, A. K. Sharma, G. A. Chavan, O. B. Gurav, M. V Rokade, M. P. Yadav, P. T. Patil, and R. N. Ghodapage, Observations in quiet day pattern of cosmic radio noise using riometers, Canadian Journal of Basic and Applied Sciences (CJBAS), 3, 213– 223, 2015, Impact Factor: 0.19
18. O. B. Gurav, S. Sripathi*, R. N. Ghodpage, Radio and optical investigations of storm time evolution of post-midnight equatorial plasma bubbles (EPBs) and their drifts over Indian sector, Advances in Space Research, 67 (1), 2021, 87-101, https://doi.org/10.1016/j.asr.2020.09.021. Impact Factor: 1.52
19. Gajanan Patil, Subhas Pawar, Onkar Gurav, Jalindar Bhosale, Sonali Rananavare, Variation in atmospheric air ion and its index of pollution during morning time (06:00 to 08:00 IST) in the sugarcane area at rural station Bhilawadi (16.5°N, 74.2°E), Int. J. Environment and Sustainable Development, Vol. 20, No. 2, 2021.
20. Rupesh N. Ghodpage, Alok Taori, D. P. Nade, M. K. Madhav Haridas, O. B. Gurav, Sanat K. Das & P. T. Patil, Impact of COVID-19 lockdown on ground-based airglow observations over India, Remote Sensing Letters, 12:5, 488-498, 2021.
21. R. N. Ghodpage, O. B. Gurav, A. Taori, S. Sau, P. T. Patil, V. C. Erram, S. Sripathi, Observation of an Intriguing Equatorial Plasma Bubble Event Over Indian Sector, Journal of Geophysical Research, 2021.
22. H.P. Gaikwad, S. Fadnavis, O.B. Gurav, J.L. Bhosale, A.K. Sharma, P.T. Patil, R.N. Ghodpage, M.M. Sutar, G.A. Chavan, A.T. Birajdar, D.J. Shetti, The day-to-day variability in the mesosphere and lower thermosphere in low latitudes: A study using MF radar, Advances in Space Research, 2023.
23. R.N. Ghodpage, A. Taori, M.K. Patil, O.B. Gurav, R.P. Patil, S. Sripathi, Equatorial plasma bubble association with lower atmospheric gravity waves – Further evidences, Advances in Space Research, 2023.
24. R.N. Ghodpage, A Taori, RP Patil, MK Patil, OB Gurav, S Sripathi, AP Dimri, Monitoring cloud parameters using a ground- based airglow imager, Remote Sensing Letters, 14 (8), 854-866, 2023.

Research Projects

Major Research:

SR.No.	Project Title:	Name of the Researcher	Funded by	Duration	Financial Outlay
1	Dual Sensitization of Hydrothermally grown TiO2 for Efficient Solar Cells”	Dr. H. P. Deshmukh	UGC	01-07-2012 to 30-06-2015	8,75,800/-

Minor Research:

SR.No.	Project Title:	Name of the Researcher	Funded by	Duration	Financial Outlay
1.	Synthesis of metal (Zn,Sn,In) oxide thin films by chemical spray And their sensing properties’	Dr. B. N. Pawar	UGC	15-11-2010 to 14-11-2012	8,75,800/-
2.	Investigation of titanium oxide thin films deposited by spray pyrolysis technique and their Electrochromic properties	Dr. H. P. Deshmukh	Bharati Vidyapeeth University	02-01-2003 to 01-01-2005 to 14-11-2012	35,000/-

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