Department Details

Department of Physics

1)    Bankar, P.K., More, M.A., Late, D.J. (2024). MoS2 Based Field Emitters for Vacuum Nano Electronics Device Applications. In D. J. Late(Eds.), Science and Technology of 2D MoS2 (pp.179-204). Singapore: Springer. ISBN: 9789819773664.
2)    Gagare, S., Chauhan, R., Late, D.J., Gosavi, S.W. (2024). MoS2: The New Avenue in Biomedical Applications. In D. J. Late(Eds.), Science and Technology of 2D MoS2 (pp.257–271). Singapore: Springer. ISBN: 9789819773664.
3)    Deka, K., Mathe, V.L. (2024). Recent Developments in Magnetic Nanocrystalline Metal Oxides and Their Biomedical Applications. In A.K. Tyagi(Eds.), Handbook of Materials Science, Volume 2 (pp.445-486). Singapore: Springer. ISBN: 9789819746453.
4)    Bhosale, R., Kim, D.J., Gosavi, S., Tonda, S. (2023). 2D Nanomaterials-based Heterostructures for H2O Splitting and CO2 Reduction. In S. Ghosh(Eds.), Recent Developments in Functional Materials for Artificial Photosynthesis. United Kingdom: Royal Society of Chemistry. ISBN: 9781839164422.
5)    Khatavkar, S.N., Khatavkar, S.N., Sartale, S.D. (2023). Chemically Deposited Iron Chalcogenide-Based Carbon Composites for Supercapacitor Applications. In A. C. Lokhande(Eds.), Chemically Deposited Metal Chalcogenide-based Carbon Composites for Versatile Applications (pp.83-121). United Kingdom: Springer International Publishing. ISBN: 9783031234019.
6)    Chopade, P., Jagtap, S., Gosavi, S.W. (2023). Synthesis and application of CdSe functional material. In S. J. Dhoble(Eds.), Functional Materials from Carbon, Inorganic, and Organic Sources (pp.393-423). Netherland: Elsevier. ISBN: 9780323857888.
7)    Ansari, S.M., Kashid, V., Sinha, B.B., Sen, D., Kolekar, Y.D., Ramana, C.V. (2023). Synthesis, Characterization and Performance Evaluation of Magnetic Nanostructured CoFe 2 O 4 for Adsorption Removal of Contaminant Heavy Metal Ions. In Dr. M. Khan(Ed.), Applications of Ferrites. United Kingdom: IntechOpen. ISBN: 9781837699438.
8)    Jagtap, S., Bute, M., Rane, S., Gosavi, S. (2023). ZnSe-and CdSe-Based Radiation Detectors. In G. Korotcenkov(Ed.), Book cover Book cover Handbook of II-VI Semiconductor-Based Sensors and Radiation Detectors (pp.109–135). Switzerland: Springer. ISBN: 9783031239991.
9)    Kumar, V., Prasad, R., Chaure, N.B., Singh, U.P. (2022). Advancement in Copper Indium Gallium Diselenide (CIGS)-Based Thin-Film Solar Cells. In U. P. Singh(Eds.), Recent Advances in Thin Film Photovoltaics (pp.5-39). Singapore: Springer. ISBN: 9789811937231.
10)    Chopade, P., Jagtap, S., Gosavi, S. (2022). Material properties and potential applications of CdSe semiconductor nanocrystals. In V., Pawade(Eds.), Nanoscale Compound Semiconductors and their Optoelectronics Applications (pp.105-153). United Kingdom: Woodhead Publishing. ISBN: 9780128240632.
11)    Kaur, K., Barathe, P., Reddy, S., Shriram, V., Dey, A., Gosavi, S., Kumar, V. (2022). Nanoformulations Against Multidrug-Resistant Members of ESKAPE Pathogens. In S. W. Gosavi(Eds.), Nano-Strategies for Addressing Antimicrobial Resistance (pp.385–411). Switzerland: Springer, Cham. ISBN: 9783031102202.
12)    Nandre, V., Jadhav, Y., Das, D.K., Ahire, R., Ghosh, S., Jadkar, S., Kodam, K., Waghmode, S. (2022). Nanomaterials for sensors: Synthesis and applications. In M. Shah(Eds.), Advanced Nanomaterials for Point of Care Diagnosis and Therapy (pp.477-492). United States: Elsevier. ISBN: 9780323857253.
13)    Shirsath, S.E., Kolekar, Y.D., Ramana, C.V. (2022). Nanostructured Ferrites: Structure, Properties and Performance. In A. Olabi(Ed.), Encyclopedia of Smart Materials (pp.177-195). Netherlands: Elsevier. ISBN: 9780128157336.
14)    Desarada, S., Singh, U.P., Chaure, N.B. (2022). Oxides for Photovoltaic Applications. In U. P. Singh(Eds.), Recent Advances in Thin Film Photovoltaics (pp.179-218). Singapore: Springer. ISBN: 9789811937248.
15)    Rondiya, S.R., Roy, A., Rahane, G.K., Jadhavar, A., Kamble, M.M., Puneeth, K.P., Hareesh, K., Suryawanshi, M.P., Dzade, N.Y., Jadkar, S.R. (2022). Physical Methods for Synthesis and Thin-Film Deposition. In A. Saxena(Eds.), Applications of Nanomaterials for Energy Storage Devices (pp.20). Boca Raton, United States: CRC Press. ISBN: 9781003216308.
16)    Mene, R.U., Joshi, R.P., Narwade, V.N., Hareesh, K., Shelke, P.N., Dhole, S.D. (2022). Polymeric Blend Nano-Systems for Supercapacitor Applications. In S.C. George(Eds.), Polymer Nanocomposites in Supercapacitors (pp.189-220). United States: CRC Press. ISBN: 9781003174646.
17)    Mathe, V.L., Nawale, A.B., Kanhe, N.S., Bhoraskar, S.V. (2022). Thermal plasma: technology of future for the processing of nanocrystalline magnetic materials. In H. M. Chaudhery(Eds.), Fundamentals and Industrial Applications of Magnetic Nanoparticles (pp.665-698). Netherland: Elsevier. ISBN: 9780128228197.
18)    Baraskar, B.G., Darvade, T.C., Kambale, R.C., Ryu, J., Annapureddy, V. (2021). Harvesting stray magnetic field for powering wireless sensors. In D. Maurya(Eds.), Ferroelectric Materials for Energy Harvesting and Storage (pp.249-274). United Kingdom: Woodhead . ISBN: 9780081028797.
19)    Khatavkar, S.N., Sartale, S.D. (2021). Liquid Phase Deposition of Nanostructured Materials for Supercapacitor Applications. In F. Ezema(Eds.), Chemically Deposited Nanocrystalline Metal Oxide Thin Films (pp.725-763). Switzerland: Springer. ISBN: 9783030684624.
20)    Shityalkar, R., Dey, R., Pathak, A., Kurhe, N., Jadkar, S. (2021). Performance Evaluation of Wind-Solar Hybrid System in Indian Context. In M. Bose(Eds.), Proceedings of the 7th International Conference on Advances in Energy Research (pp.223-230). Singapore: Springer Nature . ISBN: 9789811559556.
21)    Desai, M.A., Sartale, S.D. (2021). Plasmonic Metal Nanoparticles Decorated ZnO Nanostructures for Photoelectrochemical (PEC) Applications. In F. Ezema(Eds.), Chemically Deposited Nanocrystalline Metal Oxide Thin Films (pp.293-328). Switzerland: Springer. ISBN: 9783030684617.
22)    Alegaonkar, P.S., Bhoraskar, V.N., Bhoraskar, S.V. (2021). Polyimide: From Radiation-Induced Degradation Stability to Flat, Flexible Devices. In B.P. Nandeshwarappa(Eds.), Polyimide. United Kingdom: IntechOpen.
23)    Sayyed, S.G., Shaikh, A.A., Bhujbal, P.K., Shaikh, A.V., Pathan, H.M., Jha, P.K. (2021). Structural and Electronic Properties of Various Useful Metal Oxides. In F. Ezema(Eds.), Chemically Deposited Nanocrystalline Metal Oxide Thin Films (pp.49-84). Switzerland: Springer. ISBN: 9783030684617/9783030684648.
24)    Bhangare, B., Ramgir, N.S., Sinju, K.R., Pathak, A., Jagtap, S., Debnath, A.K., Muthe, K.P., Gosavi, S.W. (2020). Reduced Graphene Oxide (rGO)-Based Nanohybrids as Gas Sensors: State of the Art. In S. Thomas(Eds.), Functional Nanomaterials (pp.189-217). Singapore: Springer. ISBN: 9789811548093.
25)    Prasad, M., Sharma, V., Jadkar, S. (2020). Role of earth-abundant/carbonaceous electrocatalysts as cocatalyst for solar water splitting. In B. R. Inamuddin(Eds.), Methods for Electrocatalysis: Advanced Materials and Allied Applications (pp.201-220). Switzerland: Springer . ISBN: 9783030271619.
26)    Bhalerao, A.B., Jambure, S.B., Bulakhe, R.N., Kahandal, S.S., Jagtap, S.D., Banpurkar, A.G., Ansari, A.W.M.H., In, I., Lokhande, C.D. (2020). Substrate-Assisted Electrosynthesis of Patterned Lamellar Type Indium Selenide (InSe) Layer for Photovoltaic Application. In M. Bose(Eds.) , Proceedings of the 7th International Conference on Advances in Energy Research. Springer Proceedings in Energy (pp.837-845). Singapore: Springer. ISBN: 9789811559549.
27)    Shaikh, F.F.M., Jadakar, S.R., Kamat, R.K., Pathan, H.M. (2018). Activated Carbon/Transition Metal Oxides Thin Films for Supercapacitors. In M. F. Ahmer(Eds.), Electrochemical Capacitors (pp.30). United States: Materials Research Foundations. ISBN: 9781945291562.
28)    Baraskar, B.G., Kadhane, P.S., Darvade, T.C., James, A.R., Kambale, R.C. (2018). BaTiO3-Based Lead-Free Electroceramics with Their Ferroelectric and Piezoelectric Properties Tuned by Ca2+, Sn4+ and Zr4+ Substitution Useful for Electrostrictive Device Application. In H. Irzaman(Eds.), Ferroelectrics and their Applications (pp.113-132). United Kingdom: IntechOpen. ISBN: 9781789840131.
29)    Singh, J., Bhadane, M.S., Dubey, V., Dhole, S.D., Manam, J., Dahiwale, S.S. (2018). Phosphors for Various Dosimetry Applications Derived by Different Synthesis Routes. In R. Tiwari(Eds.), Emerging Synthesis Techniques for Luminescent Materials (pp.53-84). United States: IGI Global. ISBN: 9781522551706.
30)    Thomas, D., Cabibihan, J.J., Kumar, S., Pasha, S.K., Mandal, D., Laad, M., Yadav, B.C., Patil, S.I., Ghule, A., Mazumdar, P., Rattan, S. (2017). Biodegradable Nanocomposites for Energy Harvesting, Self-healing, and Shape Memory. In D. Ponnamma(Eds.), Smart Polymer Nanocomposites: Energy Harvesting, Self-Healing and Shape Memory Applications (pp.377-397). Switzerland: Springer International Publishing. ISBN: 9783319504230.
31)    Singh, S., Jagtap, S.S., Vidyasagar, P.B. (2017). Combined Effect of Hyper-Gravity and Gamma-Irradiation on Physiology of Wheat Seedlings. In P.B. Vidyasagar(Eds.), Radiation in Medicine and Biology (pp.161-173). United States: Pan Stanford. ISBN: 9781351797429.
32)    Semwal, M.K., Vidyasagar, P.B. (2017). Ferrous Sulfate–Benzoic Acid–Xylenol Orange Chemical Dosimetry System in Radiotherapy. In P.B. Vidyasagar(Eds.), Radiation in Medicine and Biology (pp.59-99). United States: Pan Stanford. ISBN: 9781351797429.
33)    Patil, B.J., Bhoraskar, V.N., Dhole, S.D. (2017). Generation of Bremsstrahlung Radiation from Different Low-to High-Z Targets for Medical Applications: A Simulation Approach. In P.B. Vidyasagar(Eds.), Radiation in Medicine and Biology (pp.3-32). United States: Pan Stanford. ISBN: 9789814745925.
34)    Bogle, K.A., Bhoraskar, V.N., Dhole, S.D., Mahabole, M.P., Khairnar, R.S. (2017). Motivation to Explore New Techniques for Synthesis of Metal Nanoparticles and Their Immense Importance in Biological and Medicinal Applications. In P.B. Vidyasagar(Eds.), Radiation in Medicine and Biology (pp.129-144). United States: Pan Stanford. ISBN: 9789814745925.
35)    Balraj, A., Vidyasagar, P.B., Chakravarty, N., Thakur, P.K., Bhatnagar, S. (2017). Radiobiological effects in fractionated radiotherapy of head and neck squamous cell carcinoma patient. In P.B. Vidyasagar(Eds.), Radiation in Medicine and Biology (pp.101-116). United States: Pan Stanford. ISBN: 9781351797429.
36)    Joshi, C.P., Vidyasagar, P.B., Schreiner, L.J. (2017). The Investigation of Cobalt-60 Tomotherapy. In P.B. Vidyasagar(Eds.), Radiation in Medicine and Biology (pp.33-58). United States: Pan Stanford. ISBN: 9789814745925.
37)    Ni Nyoman Rupiasih , Aher, A., Gosavi, S., Vidyasagar, P.B. (2015). Green Synthesis of Silver Nanoparticles Using Latex Extract of Thevetia Peruviana: A Novel Approach Towards Poisonous Plant Utilization. In J. Akhtar(Eds.) , Recent Trends in Physics of Material Science and Technology (pp.1-10). Singapore: Springer . ISBN: 9789812871275.
38)    Bansode, A.S., More, S.E., Bhoraskar, S.V., Ajit, M.R., Mathe, V.L. (2015). Interaction of atomic oxygen species generated using electron cyclotron resonance (ECR) plasma with thermal protecting system (TPS) material . In Murty S.V.S.(Eds.), Materials Science Forum (vol.830-831) (pp.561-564). Switzerland: Trans Tech Publications Ltd. ISBN: 9783038355366.
39)    Koinkar, P., Kumar, A., Avasthi, D.K., More, M., Murakami, R.I. (2015). The high energy ion irradiation impact on carbon nanotubes. In S.K. Rana(Eds.), Handbook of Polymer Nanocomposites. Processing, Performance and Application: Volume B: Carbon Nanotube Based Polymer Composites (pp.1-12). Berlin, Germany: Springer. ISBN: 9783642452284.
40)    Bansode, A.S., Bhoraskar, S.V., Mathe, V.L., Beg, A., Khan, B., Patel, A., Pote, S., Bhadekar, R. (2014). Dielectric Barrier Discharge Plasma for Endodontic Treatment. In Fred(Eds.), Biomedical Engineering Systems and Technologies (pp.89-97). Berlin, Germany: Springer Berlin Heidelberg. ISBN: 9783662444849.
41)    Bhoraskar, S.V., Bhave, T., Chaudhari, P., Kanjilal, D. (2012). Ion induced synthesis of composite of Si nanoparticles in silicon oxide for MOS devices. In J. C. Pivin(Eds.), Synthesis and Engineering of Nanostructures by Energetic Ions (pp.285-297). New York, United States: Nova Science Publishers, Inc.. ISBN: 9781621002611.
42)    Dey, B. (2012). K-dV Like Equations with Domain Wall Solutions. In Lakshmanan M(Ed.), Solitons: Introduction and Applications (pp.188). Berlin, Germany: Springer. ISBN: 9783642731938.
43)    Karmakar, M., Dey, B. (2012). Vortices in high-temperature superconductors: A phenomenological approach. In V.R. Romanovskii(Ed.), Superconductivity: Theory, Materials and Applications (pp.1-63). New York, United States: Nova Science. ISBN: 9781613248430.
44)    Kabir, M., Mookerjee, A., Kanhere, D.G. (2011). Magnetism in pure and doped manganese clusters. In L.T. Chen(Ed.) , Atomic, Molecular and Optical Physics: New Research (pp.313-344). United States: Nova Science. ISBN: 9781604569070.
  

Publications Before 2011


45)    Sarkar, R., Dey, B. (2009). Biphonons in Quantum Curved Fermi-Pasta-Ulam Chain. In S. Rajasekar(Eds.), Nonlinear Dynamics (pp.103-112). New Delhi, India: Narosa . ISBN: 9788173199417 .
46)    Kau, C.C., Luo, M.F., Sartale, S.D., Tseng, A.A. (2008). Atom, Molecule, and Nanocluster Manipulations for Nanostructure Fabrication Using Scanning Probe Microscopy. In A.A.Tseng(Ed.) , Nanofabrication: Fundamentals and Applications (pp.1-32). Singapore: World Scientific Publishing . ISBN: 9789812700766 .
47)    Dey, B., M. Eleftheriou, Tsironis, G.P. (2001). Breather Compactification in Nonlinear Anharmonic Lattices with Nonlocal Dispersive Interactions. In M.P. Sorensen(Eds.) , Nonlinearity and Disorder: Theory and Applications (Nato Science Series II) (pp.189-195). Netherlands : Kluwer Academic. ISBN: 9781402001925.
48)    Panat, P.V., Dey, B. (1998). Antiferromagnetic Correlations, Phononic Mechanism and The Symmetry Of The Superconducting State . In F.B Malik(Eds.), Condensed Matter Theories, Vol. 13.. New York, United States: Nova Science . ISBN: 9781560726029.
49)    Mahamuni, S., Borgohain, K., Bendre, B.S., Joshi, S.S. (1998). Cu Doped ZnO Quantum Dots: Intrinsic and Extrinsic Luminescence. In V. Kumar(Eds.), Frontiers in Materials Modelling and Design (pp.244-249). Berlin, Germany: Springer. ISBN: 9783642804809.
50)    Kanhere, D.G., Shah, V.J., Vichare, A.M. (1997). Applications of ab initio molecular dynamics to Al-Li binary clusters. In K. P. Jain(Ed.), Physics of Semiconductor Nanostructures (pp.114-124). Mumbai, India: Narosa Publishing House. ISBN: 9788173191572.
51)    Shah, V., Nehete, D., Kanhere, D.G. (1996). Ab initio molecular dynamics with density based functionals. In P. Jena(Eds.), Clusters and Nanostructured Materials (pp.173-180). New York, United States: Nova Science Publishers, Inc.. ISBN: 9781560723783.
52)    Kanhere, D.G., Arjunwadkar, M. (1996). Numerical Simulations of Strongly Correlated Systems. In S. Ramasesha(Eds.), Strongly Correlated Electron Systems in Chemistry: Experiment and Theory (pp.196). Navi Mumbai, Maharashtra: Narosa Publishing House. ISBN: 9788173190629.
53)    Arjunwadkar, M., Panat, P.V., Kanhere, D.G. (1996). Spin-Charge Separation in 2D: a Discussion with Reference to Quantum Currents. In E.V. Ludena(Eds.), Condensed Matter Theories Vol. 11 (pp.137). New York, United States: Nova Science Publishers. ISBN: 9781560723745.
54)    Gadre, S.R., Pathak, R.K. (1991). Bounds to atomic and molecular energy functionals. In J.R. Sabin(Eds.), Advances in Quantum Chemistry Volume 22 (pp.211-300). Netherlands: Elsevier. ISBN: 9780128099889.