1. Mathad, S., 2019. Synthesis, Characterization and Microwave Studies of Thick Films. LAP LAMBERT Academic Publishing, AV Akademikerverlag GmbH and Co. KG., Germany.
2. Khemalapure, S.S., P.L. Hosamani, S.N. Mathad, A.S. Pujar and C.S. Hiremath et al., 2019. Synthesis, structural and dielectric properties of Ni-Zn-Cu ferrites. Adv. Sci. Eng. Med., 11: 375-382.
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3. Durgadsimi, S.U., S.S. Chougule, R.G. Kharabe, S.N. Mathad and M.K. Rendale, 2019. Synthesis and structural studies of Li_0.5Ni_0.75-x/₂Zn_x/2Fe₂O₄ ferrites. Int. J. Self Propagat. High Temperat. Synth., 28: 71-73.
4. Bannur, M.S., K.I. Maddani, S.N. Mathad and P.S. Patil, 2019. Optical and structural properties of (110) plane textured zinc doped tin oxide thin films. Int. J. Self Propagat. High Temperat. Synth., 28: 34-38.
5. Vasawade, S.D., S.S. Paramaje, N.J. Choudhari, B.V. Grampurohit and M.K. Rendale et al., 2018. Structural and dielectric properties of lead-free Zr-doped barium titanates. Int. J. Self-Propagat. High-Temperat. Synth., 27: 26-32.
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6. Timmagoudar, S.N., C.C. Baseganni, D.V. Patil, M.H. Gohil, S.B. Akkisagar, M. Prasad and S.N. Mathad, 2018. Design and working of semi automated dish washer. World J. Technol. Eng. Res., 3: 126-138.
7. Shedam, M.R., S.S. Patil, R.M. Shedam and S.N. Mathad, 2018. Shielding of metals from the corrosion induced by water and humidity by using scratch resistant and hydrophobic silica coatings. J. Res. Phys., 39: 23-30.
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8. Shashidhargouda, H.R. and S.N. Mathad, 2018. Synthesis and structural analysis of Ni_0.45Cu_0.55Mn₂O₄ by Williamson-Hall and size-strain plot methods. Ovidius Univ. Ann. Chem., 29: 122-125.
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9. Pujar, A.S., A.B. Kulkarni, S.N. Mathad, C.S. Hiremath, M.K. Rendale, M.R. Patil and R.B. Pujar, 2018. Structural, electrical and IR properties of Cu x Co_1-x Fe₂O₄ (x= 0, 0.4, 1.0) prepared by solid-state method. Int. J. Self-Propagat. High-Temperat. Synth., 27: 174-179.
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10. Prasad, M., A. Kuppasat, V. Kamat, J. Bhadrapur, P. Shiggavi, S.N. Mathad, 2018. Design, analysis and fabricate cylindrical parabolic concentrator by local available materials. J. Res. Mech. Eng. Applied Mech., 3: 1-22.
11. Patil, A.Y., S.S. Gad, S.C. Policepati, S. Patil and S.N. Mathad, 2018. Design and analysis of alternative material for bird strike on aircraft windshield. Technol. Eng., 15: 5-10.
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12. Patil, A.Y., S. Kulkarni, S. Koppal and S.N. Mathad, 2018. Design and analysis of backpack structure for school children using FEA tool. Int. J. Adv. Sci. Eng., 5: 862-870.
13. Patil, A.Y., R. Savadi, C.N. Shet, B.B. Kotturshettar and S.N. Mathad, 2018. A novel mechatronics approach to measure the payload of heavy duty vehicle. Technol. Eng., 15: 16-19.
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14. Molakeri, A.S., S. Kalyane and S.N. Mathad, 2018. Comparative study of nickel ferrite nano-ferrites synthesized by combustion and microwave route. Int. J. Self-Propagat. High-Temperat. Synth., 27: 44-50.
15. Mathad, S.N., 2018. Mechanical and structural properties of Zn_0.1Ni_0.4Cu_0.5Fe₂O₄ ferrite. Int. J. Adv. Sci. Eng. Inform. Technol., 5: 911-916.
16. Maruti, R., M. Shrihar and P. Vijaya, 2018. Resonance shifting by ferrite thick film superstrate. Serbian J. Elect. Eng., 15: 275-284.
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17. Kulkarni, A.B. and S.N. Mathad, 2018. Synthesis and structural analysis of Co-Zn-Cd ferrite by Williamson-Hall and size-strain plot methods. Int. J. Self-Propagat. High-Temperat. Synth., 27: 37-43.
18. Kulkarni, A.B. and S.N. Mathad, 2018. Effect of sintering temperature on structural properties of Cd doped Co-Zn ferrite. J. Nano-and Elect. Phys., 10: 01001-1-01001-5.
19. Galagali, S.L., R.A. Patil, R.B. Adaki, C.S. Hiremath, S.N. Mathad and R.B. Pujar, 2018. Influence of cadmium substitution in magnesium ferrites on structral and mechanical properties. Sci. Sinter., 50: 217-223.
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20. Galagali, S.L., R.A. Patil, R.B. Adaki, C.S. Hiremath, S.N. Mathad and R.B. Pujar, 2018. Electrical and magnetic properties of Mg-Cd ferrites. Int. J. Self-Propagat. High-Temperat. Synth., 27: 107-113.
21. Bharamagoudar, R.C., A.S. Patil, S.N. Mathad, V.M. Kumbar and L.B. Kankanawadi, 2018. Magnetic and antibacterial studies of nanoferrites prepared by self propagating high-temperature synthesis route. Acta Chem. IASI, 26: 249-262.
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22. Adarakatti, S.N., V.S. Pattar, P.K. Korishettar, B.V. Grampurohit and R.G. Kharabe et al., 2018. Synthesis, structural and electrical studies of Li-Ni-Cu nano ferrites. Acta Chem. IASI., 26: 1-12.
23. Shedam, M.R., R.M. Shedam and S.N. Mathad, 2017. Morphological and FTIR studies of barium oxalate single crystals. Acta Chem. IASI, 25: 195-207.
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24. Rendale, M.K., S.N. Mathad and V. Puri, 2017. Structural, mechanical and elastic properties of Ni_0.7-xCo_xZn_0.3Fe₂O₄ nano-ferrite thick films. Microelect. Int., 34: 57-63.
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25. Prasad, M.G., A.G. Girimath, S. Rao, A.J. Vinekar, D.C. Patil, S.N. Timmanagoudar, S.N. Mathad, 2017. Investigation of vibration and mechanical properties of sisal fiber reinforced polymer composites. Adv. J. Graduate Res., 1: 40-48.
26. Prasad, M.G., A.G. Girimath, S. Rao, A.J. Vinekar, D.C. Patil, S.N. Timmanagoudar and S.N. Mathad, 2017. FFT studies of sisal fiber reinforced polymer composites. Int. J. Adv. Sci. Eng., 4: 605-611.
27. Patil, M.R., M.K. Rendale, S.N. Mathad and R.B. Pujar, 2017. Electrical and magnetic properties of Cd⁺² doped Ni-Zn ferrites. Inorg. Nano-Metal Chem., 47: 1145-1149.
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28. Patil, M.R., M.K. Rendale, S.N. Mathad and R.B. Pujar, 2017. Electrical and magnetic properties of Cd⁺² doped Ni-Zn ferrites. Inorg. Nano-Met. Chem., (In Press). 10.1080/24701556.2017.1284097.
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29. Molakeri, A.S., S. Kalyane and S.N. Mathad, 2017. Elastic properties of nickel ferrite synthesized by combustion and microwave method using FT-IR spectra. Int. J. Adv. Sci. Eng., 3: 422-427.
30. Kashid, P., M. Shedam, A.B. Kulkarni, S.N. Mathad and R. Shedam, 2017. Synthesis and structural studies of nano Co_0.85Cd_0.15Fe₂O₄ ferrite by co-precipitation method. J. Adv. Phys., 6: 545-548.
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31. Yattinahalli, S.S., S.B. Kapatkar and S.N. Mathad, 2016. Review of nanoscience materials and its applications. Res. J. Eng. Technol., 7: 121-127.
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32. Timmanagoudar, S., R. Kamballi, K. Mahalaxmi and S.N. Mathad, 2016. Multipurpose pedal operated power generation and water pumping. J. Recent Trends Mech., 1: 20-32.
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33. Shedam, R.M., A.B. Gadkari, S.N. Mathad and M.R. Shedam, 2016. Synthesis and Structural Investigation of Nano-Sized Cadmium Ferrite. J. Mod. Mater., 2: 7-12.
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34. Shedam, M.R., R.M. Shedam and S.N. Mathad, 2016. Microstures of CdC₂O₄•3H₂O single crystal grown in silica gel. J. Nano Electron. Phys., Vol. 8, No. 4. .
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35. Shedam, M.R., R.M. Shedam and S.N. Mathad, 2016. Effect of Acid Impurities on Nucleation and Growth Mechanism of Cadmium Selenide Single Crystal in Silica Hydrogels. J. Nanotechnol. Nano-Eng., .
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36. Rendale, M.K., S.N. Mathad, D.C. Kulkarni and V. Puri, 2016. Dielectric and magnetic properties of substituted Li-Zn ferrite thick films clouded over a half wavelength microstrip rejection filter. Int. J. Self Propag. High Temp. Synth., 25: 86-91.
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37. Mathad, S.N., M.K. Rendale, R.N. Jadhav and V.R. Puri, 2016. Study of lead free ferroelectrics using overlay technique on thick film microstrip ring resonator. Process. Appl. Ceram., 10: 41-46.
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38. Hudedmani, M.G., V.M. Soppimath and S.N. Mathad, 2016. Impacts of energy generation on Environment. Int. J. Electr. Electron. Eng., Vol. 8, .
39. Yattinahalli, S.S., S.B. Kapatkar and S.N. Mathad, 2015. Synthesis and structural characterization of nanomanganese ferrites. J. Nano Electron. Phys., Vol. 7, No. 4. .
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40. Rendale, M.K., S.N. Mathad and V. Puri, 2015. Thick films of magnesium zinc ferrite with lithium substitution: Structural characteristics. Int. J. Self Propag. High Temp. Synth., 24: 78-82.
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41. Patil, M.R., M.K. Rendale, S.N. Mathad and R.B. Pujar, 2015. Structural and IR study of Ni_0.5-xCdxZn_0.5Fe₂O₄. Int. J. Self Propag. High Temp. Synth., 24: 241-245.
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42. Mathad, S., P. Jadhav and V. Puri, 2015. Dielectric and Electrical Properties of Sr _x Ba_1-x Nb₂O₆ (0.40 ≤ X ≤ 0.75) Ceramics. J. Adv. Phys., 4: 19-24.
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43. Hiremath, P.R., M.K. Rendale, P.B. Belavi and S.N. Mathad, 2015. Dielectric Relaxation Studies of 2-Ethoxybenzonitrile, 4-Ethoxybenzonitrile, 1-Bromo 2,4-Difluorobenzene, 2,6-Difluorobenzaldehyde and 2-Bromo 4-Fluoroanisole in Benzene. Mater. Focus, 4: 370-378.
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44. Hiremath, P.R., M.K. Rendale and S.N. Mathad, 2015. Impact of Viscosity on Dielectric Relaxation Time of Some Organic Molecules. J. Adv. Phys., 4: 134-138.
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45. Yattinahalli, S.S., S.B. Kapatkar and S.N. Mathad, 2014. Structural and Mechanical Properties of a Nano Ferrite. Adv. Sci. Focus, 2: 42-46.
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46. Pathan, A.T., S.N. Mathad and A.M. Shaikh, 2014. Infrared spectral studies of nanostructured Co²⁺-substituted Li-Ni-Zn ferrites. Int. J. Self Propag. High Temp. Synth., 23: 112-117.
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47. Mathad, S.N., R.N. Jadhav, V. Phadtare and V. Puri, 2014. Structural and mechanical properties of Sr-doped barium niobate thick films. Int. J. Self-Propag. High-Temper. Synth., 23: 145-150.
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48. Mathad, S.N., R.N. Jadhav, V. Phadatare and V. Puri, 2014. Response of Ag Thick Film Microstripline due to Superstrate Strontium Substituted Bismuth Manganites. J. Nano-Electr. Phys., Vol. 6, .
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49. Mathad, S.N., R.N. Jadhav, P. Jadhav and V. Puri, 2014. Modification of Ag Thick Film Microstripline Due to Superstrate Strontium Barium Niobate Thick-Films. Int. J. Comput. Technol., 1: 100-103.
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50. Mathad, S.N., R.N. Jadhav and V. Puri, 2014. Microwave Studies of Bismuth Strontium Manganite Thick-Films by Superstate Method. Open J. Mod. Phys., 1: 86-95.
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51. Mathad, S.N. and V. Puri, 2014. Microwave Studies of Environmental Friendly Ferroelectrics. Int. Scholarly Res. Not., 10.1155/2014/683986.
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52. Yattinahalli, S.S., S.N. Mathad and S.B. Kapatkar, 2013. Structural Studies of Zinc Ferrite Synthesized at Low Temperature. Int. Rev., 1: 5-8.
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53. Yattinahalli, S.S., S.B. Kapatkar, N.H. Ayachit and S.N. Mathad, 2013. Synthesis and structural characterization of nanosized nickel ferrite. Int. J. Self Propag. High Temp. Synth., 22: 147-150.
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54. Pawar, R.S., S.N. Mathad, N.D. Patil and V.R. Puri, 2013. Modification of Ag Thick Film Microstripline Due to Superstrate Ni-Cu-Fe-Mn-O ceramics. Int. J. Eng. Innovative Technol., 3: 220-223.
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55. Patil, N.D., P.S. Jadhav, R.N. Jadhav, S.N. Mathad and V. Puri, 2013. Combustion synthesis and electromagnetic properties of nanocrystalline Pb(Zr_0.52Ti_0.48)O₃. Int. J. Self Propag. High Temp. Synth., 22: 141-146.
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56. Mathad, S.N., R.N. Jadhav, R.P. Pawar and V. Puri, 2013. Electromagnetic Behavior of Lead Free Ferroelectrics at Microwave Frequencies. Adv. Sci. Eng. Med., 5: 789-795.
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57. Mathad, S.N., R.N. Jadhav, R.P. Pawar and V. Puri, 2013. Dielectric spectroscopy and microwave conductivity of bismuth strontium manganites at high frequencies. Electr. Mater. Lett., 9: 87-93.
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58. Mathad, S.N., R.N. Jadhav, N.D. Patil and V. Puri, 2013. Structural and mechanical properties of Sr⁺²-doped bismuth manganite thick films. Int. J. Self Propag. High Temp. Synth., 22: 180-184.
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59. Mathad, S.N., R.N. Jadhav and V. Puri, 2013. Microwave studies by perturbation of Ag thick film microstrip ring resonator using superstrate of bismuth strontium manganites. Microelectron. Int., 30: 85-91.
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60. Jadhav, R.N., S.N. Mathad and V. Puri, 2013. Properties of fritless Ni_0.6Cu_0.4Fe_yMn_2−yO₄ NTC ceramic thick films. Phys. Scripta, Vol. 87, 10.1088/0031-8949/87/06/065801.
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61. Jadhav, R., S.P. Patil, S.N. Mathad, S.A. Kanade and V. Puri, 2013. Perturbation of Ag thick film microstrip ring resonator due to superstrate Ni_0.6CO_0.4Ag_yMn_2-yO₄ ceramics. AIP Conf. Proc., 1536: 1193-1194.
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62. Mathad, S.N., R.N. Jadhav and V. Puri, 2012. Raman studies of rod-like bismuth strontium manganites. Eur. J. Appl. Eng. Sci. Res., 1: 67-72.
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63. Mathad, S.N., R.N. Jadhav and R.P. Puri, 2012. Studies on Rod Shaped Bismuth Strontium Manganite Ceramics. Sci. Adv. Mater., 4: 1276-1281.
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64. Mathad, S.N. and V. Puri, 2012. Structural and dielectric properties of SrxBa1- xNb2O6 ferroelectric ceramics. Arch. Phys. Res., 3: 106-115.
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65. Jadhav, R.N., S.N. Mathad and V. Puri, 2012. Studies on the properties of Ni_0.6Cu_0.4Mn₂O₄ NTC ceramic due to Fe doping. Ceram. Int., 38: 5181-5188.
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