PUBLICATIONS

After Joining IIT Indore (November 2019 onwards)

107. A Gaur, N Saurabh, S Patel  "Pyroelectric performance of Tantalum doped NBT-6BT bulk ceramics" Materials Today Communications,109295, 2024. https://doi.org/10.1016/j.mtcomm.2024.109295 

106. A Gaur, N Saurabh, N Upadhyay, S Patel "Exploring the Influence of Lanthanum Doping on Pyroelectric and Pyrocatalytic Characteristics in NBT-BT-2Zn Ceramics" Journal of Physics and Chemistry of Solids, 192, 112084, 2024. https://doi.org/10.1016/j.jpcs.2024.112084 

105. R A Rabadiya, N Saurabh, S Patel “Simulation Study on the Effect of Operating and Materials Parameters on Electrocaloric Device for Battery Cooling” Physics Scripta 99, 045915, 2024. https://doi.org/10.1088/1402-4896/ad2cd7

104. N Saurabh, S Limbore, H Kuldeep, S Patel “Simulation and experimental study of NBT-BT based compositions for thermal energy harvesting” Materials Today Communications, 38, 108331, 2024. https://doi.org/10.1016/j.mtcomm.2024.108331 

103. A Gaur, N Saurabh, S Patel “Pyrocatalysis-driven dye degradation by Zn Doped NBT-BT: A comparative analysis between powder and bulk” Materials Chemistry and Physics 315, 128940, 2024, https://doi.org/10.1016/j.matchemphys.2024.128940 

102. R Rabadiya, R S Sai Eswar, S N Ch, N Saurabh, S Patel “P(VDF-TrFE-CFE) polymer based electrocaloric device design for battery cooling” Ferroelectrics 618 (1), 246-258, 2024. https://doi.org/10.1080/00150193.2023.2271330

101. A Gaur, S Meena, N Meena, N Saurabh, S Patel “Dynamic response of auxetic and functionally graded piezoelectric energy harvester using PVDF polymer” Ferroelectrics 618 (1), 274-286, 2024. https://doi.org/10.1080/00150193.2023.2271332 

100.  A Gaur, N Saurabh, and S Patel "Exploiting the Potential of Pyroelectric–Piezoelectric Hybrid Devices for Low-Grade Thermal Energy Harvesting" Energy Techchnology 12, 2300893, 2024.  https://doi.org/10.1002/ente.202300893 

99. N Saurabh and S Patel "Layered porous Na0.5Bi0.5TiO3–0.06BaTiO3 for enhanced pyroelectric thermal energy harvesting" Journal of the European Ceramic Society  44 (5), 2874-2885, 2023. https://doi.org/10.1016/j.jeurceramsoc.2023.12.010 

98. A Gaur, K Chawla, R Kiran, and S Patel “Effective thermo-electro-mechanical properties of Menger sponge-like fractal structures: a finite element study" Physics Scripta 98(9), 095104, 2023. https://doi.org/10.1088/1402-4896/ace5f1.

97. N Saurabh and S Patel "Effect of bulk porosity on the pyroelectric properties of Na0.5Bi0.5TiO3–0.06BaTiO3 ceramics" Journal of Materials Science 58, 9562–9578, 2023. https://doi.org/10.1007/s10853-023-08624-y.

96.  A K Tikariha, N Saurabh, V Gudipadu, and S Patel “Effect of auxetic structures parameters variation on PVDF-based piezoelectric energy harvesters” J. Appl. Phys. 132(24), 244105, 2022. https://doi.org/10.1063/5.0119742

95.   N Saurabh, R Kiran and S Patel "Solar energy harvesting using lead-free pyroelectric bulk ceramics: A simulation study" Journal of Science: Advanced Materials and Devices, 8(1), 100527, 2022. https://doi.org/10.1016/j.jsamd.2022.100527.                

94. D K Johar, D Sharma, H Yadav, S Patel "Energy and exergy analysis of pebble bed thermal energy storage system for diesel engine exhaust" Thermal Science 26(6 Part B), 4969-4980, 2022. https://doi.org/10.2298/TSCI210628072J 

93. N. Saurabh and S. Patel “Enhanced energy conversion and storage properties of Sn-doped BaTiO3 bulk ceramics using compressive stresses” Journal of Electronic Materials.  51 (3), 1297-1310, 2022. https://doi.org/10.1007/s11664-021-09401-w. 

92. S Patel, KV Lalitha, N Saurabh "Enhanced Pyroelectric Performance of Lead-Free Zn-Doped Na1/2Bi1/2TiO3-BaTiO3 Ceramics" Materials 15 (1), 87, 2022. https://doi.org/10.3390/ma15010087 

91. A Roy Chowdhury, N Saurabh, R Kiran, S Patel "Effect of porous auxetic structures on low-frequency piezoelectric energy harvesting systems: a finite element study" Applied Physics A 128 (1), 62, 2022. https://doi.org/10.1007/s00339-021-05199-w 

90. N. Saurabh and S. Patel “Nonstoichiometric effect on electrocaloric, pyroelectric and energy storage properties of 0.94NaxBiyTiO3–0.06BaTiO3 bulk ceramics” Journal of Materials Science: Materials in Electronics  32(22), 26871-26893, 2021. https://doi.org/10.1007/s10854-021-07063-2 

89. R S Srivastava, A Kumar, S Sharma, H Thakur, S Patel and R Vaish “Development and applications of thermoelectric based dehumidifiers” Energy and Buildings, 252, 111446, 2021. https://doi.org/10.1016/j.enbuild.2021.111446

88. M Sharma, S Patel, A. Arockiarajan and R Vaish "Electrical creep and fatigue in 0.5Ba(Zr0.2Ti0.8)O3-0.5(Ba0.7Ca0.3)TiO3 ceramics" Functional Materials Letters, 2150033, 2021. https://doi.org/10.1142/S1793604721500338

87. S Patel, M Kumar and Y Kashyap "Thermo-mechanical energy harvesting and storage analysis in 0.6BZT-0.4BCT ceramics" The European Physical Journal Applied Physics, 95(2), 20901, 2021

86. S Patel and M Kumar "Elastocaloric effect in zinc oxide nanowire” Functional Materials Letters, 14(5), 2150021, 2021 

85. S Patel "Flexocaloric effect in ferroelectric materials: Methods of indirect evaluation" Applied Physics A,  127, 411, 2021

84. S Patel, H Yadav and M Kumar "Effect of uniaxial stress on energy harvesting, storage and electrocaloric performance of BZT ceramics” Journal of the Korean Ceramic Society, 58(4), 437-444, 2021

83. S Patel “Flexo/elasto-caloric effects in 0.66Pb(Mg1/3Nb2/3)O3-0.34PbTiO3 single crystal” Materials Letters, 287, 129301, 2021 

82. S Patel and N Novak “The pyroelectric energy harvesting and storage performance around the ferroelectric/antiferroelectric transition in PNZST” Journal of Materials Science, 56(2), 1133-1146, 2021

81. S Patel, Lalitha K. V and H Yadav “Impedance and modulus analysis of barium calcium titanate ferroelectric ceramics” Journal of Korean Ceramics Society, 58(3), 337-350, 2021

80. M K Meena, M Kumar, K V Lalitha and S Patel “Thermomechanical analysis of 0.94Na1/2Bi1/2TiO3-0.06BaTiO3/ZnO composites using finite element method” Journal of Alloys and Compounds, 854, 157116, 2021 

79. S Patel, A Chauhan and R Vaish “Flexo/electro-caloric performance of BaTi0.87Sn0.13O3 ceramics” Applied Physics Letters, 117(9), 092904, 2020

78. M Sharma, S Patel, VP Singh and R Vaish “Pyroelectric energy harvesting for dye decolorization using Ba0.9Ca0.1TiO3 ceramics” Journal of Applied Physics, 128(9), 095108, 2020

77. S Patel “Pyroelectric figures of merit and energy harvesting potential in ferroelectric cement composites” Journal of Materials Science: Materials in Electronics, 31(19), 16708-16719, 2020

76. S Patel and H Yadav “Electrical conduction properties of the BZT-BST ceramics” Journal of Advanced Dielectrics, 10(6), 2050026, 2020

75. S Patel and M Kumar “Influence of grain size on the electrocaloric and pyroelectric properties in non-reducible BaTiO3 ceramics” AIP Advances, 10(8), 085302, 2020

74. S Patel and M Kumar “Electrocaloric properties of Sr and Sn doped BCZT lead-free ceramics” The European Physical Journal Applied Physics, 91(2), 20905, 2020

73. S Khobragade and S Patel, “Thermal Energy Harvesting Capabilities in Lead-Free Ba0.85Ca0.15Ti0.9-xSnxZr0.10O3 Ferroelectric Ceramics” Journal of Electronic Materials, 49(2), 1194-1203, 2020

Before Joining IIT Indore (2014-2019)

72. K S Srikanth, V.P. Singh, S Patel and R Vaish “Pyroelectric performance of [Bi0.48 Na0.4032K0.0768]Sr0.04(Ti0.975Nb0.025)O3 ceramics” Journal of Australian Ceramic Society, 56, 395–402, 2020

71. S Khobragade, J K Devanuri and S Patel, “Temperature dependent dynamics hysteresis scaling of Ba0.85Ca0.15Ti0.9–xSnxZr0.10O3 bulk ferroelectric ceramics” Phase Transitions, 92(11), 960-973, 2019. 

70. S Patel, In-Tae Seo and S Nahm, “Enhanced energy harvesting using multilayer piezoelectric ceramics” Journal of Electronic Materials, 48(11), 6964-6971,2019. 

69.  A kumar, S Kumar, S Patel, P Azad, R Vaish, R kumar and K S Srikanth, “Pyroelectric energy harvesting using Ba0.85Sr0.15Zr0.1Ti0.9O3 ceramics and its cement based composites” Journal of Intelligent Material Systems and Structures, 30(6), 869-877, 2019.

68. A Kumar, A Chauhan, S Patel, N Nikola, R Kumar and R Vaish, “Vibration induced refrigeration: a next generation cooling solution” Scientific Reports, 9(1), 3922, 2019.

67. T Ogata, Y Sakai, H Yamamoto, S Patel, P Keil, J Koruza, Z Pan, T Nishikubo, J Rödel, and M Azuma “Melting of dxy orbital ordering accompanied by suppression of giant tetragonal distortion and insulator to metal transition in Cr substituted PbVO3” Chemistry of Materials, 31(4), 1352-1358, 2019

66. M R Mulay, A Chauhan, S Patel, V Balakrishnan, A Halder and R Vaish “Candle Soot: Journey from a Pollutant to a Functional Material” Carbon 144, 684-712, 2019.

65. K S Srikanth, S Patel, S Steiner and R Vaish “Large pyroelectric signals in (Ba,Ca)TiO3-xBa(Sn,Ti)O3 ceramics: A viable alternative for lead-based ceramics” Scripta Materialia. 146, 146-149, 2018.

64. K S Srikanth, S Patel and R Vaish “Electrocaloric behavior and temperature dependent scaling of dynamic hysteresis of BaxSr1-xTiO3 (x=0.7, 0.8 and 0.9) bulk ceramics” Journal of Australian Ceramic Society, 54(3), 439-450, 2018.

63. K S Srikanth, S Patel and R Vaish “Functional cementitious composites for pyroelectric applications” Journal of Electronic Materials, 47(4), 2378-2385, 2018.

62. N. Novak, F..Weyland, S. Patel, H. Guo, X. Tan, J. Rödel, and J. Koruza “Interplay of conventional with inverse electrocaloric response in (Pb,Nb)(Zr,Sn,Ti)O3 antiferroelectric materials” Physical Review B, 97, 094113, 2018.

61. S Patel, A Chauhan, V Rojas, N Novak, F Weyland, J Rödel and R Vaish “Thermo-mechanical energy conversion potential in lead-free 0.50Ba(Zr0.2Ti0.8)O3-0.50(Ba0.7Ca0.3)TiO3 bulk ceramics” Energy Technology, 6(5), 872- 882, 2018.

60. S Patel, F Weyland, X Tan and N Novak “Tunable pyroelectricity around the ferroelectric/antiferroelectric transition” Energy Technology, 6(5), 865-871, 2018.

59. S Patel, K.S. Srikanth, S Steiner, R Vaish and T Frömling “Pyroelectric and impedance studies of the 0.5Ba(Zr0.2Ti0.8)O3-0.5(Ba0.7Sr0.3)TiO3 ceramics” Ceramics International, 44, 21976–21981, 2018.

58. Yamamoto, Hajime; Ogata, Takahiro; Patel, Satyanarayan; Koruza, Jurij; Roedel, Jurgen; Paul, Atanu; Saha-Dasgupta, Tanusri; Itoh, Mitsuru; Azuma, Masaki “Na1/2Bi1/2VO3 and K1/2Bi1/2VO3: New Lead-free Tetragonal Perovskites with Moderate c/a ratio” Chemistry of Materials, 30, 6728−6736, 2018.

57. K S Srikanth, S Patel and R Vaish “Pyroelectric performance of BaTi1-xSnxO3 ceramics” International Journal of Applied Ceramic Technology, 15, 546-553, 2018.

56. A Chauhan, S Patel, Shuai Wang , N Novak, B-X Xu, P Lv, R Vaish and C S. Lynch “Enhanced performance of ferroelectric materials under hydrostatic pressure” Journal of Applied Physics, 122(22), 224105, 2017.

55. M Acosta, N Novak, V Rojas, S Patel, R Vaish, J Koruza, G A Rossetti, Jr, and J Rödel “BaTiO3-based piezoelectrics: fundamentals, current status, and perspectives” Applied Physics Reviews, 4, 041305, 2017.

54. S Patel, R Vaish, “Effect of sintering temperature and dwell time on electrocaloric properties of Ba0.85Ca0.075Sr0.075Ti0.90Zr0.10O3 ceramics”, Phase Transitions, 90(5), 465-474, 2017.

53. S Patel, A Chauhan, N A Madhar, B Ilahi and R Vaish “Flexoelectric induced caloric effect in truncated pyramid shaped Ba0.67Sr0.33TiO3 ferroelectric material” Journal of Electronic Materials, 46(7), 4166-4171, 2017.

52. K S Srikanth, S Patel, S Steiner and R Vaish “Engineered microstructure for tailoring the pyroelectric performance of Ba0.85Sr0.15Zr0.1Ti0.9O3 ceramics by 3BaO-3TiO2-B2O3 glass addition” Applied Physics Letters, 110(23), 232901, 2017.

51. K S Srikanth, S Patel and R Vaish “Enhanced electrocaloric characteristics of glass added 0.94Bi0.5Na0.5TiO3-0.06BaTiO3 ceramics” Journal of Australian Ceramic Society, 2 53(2), 523-529, 2017.

50. A Chauhan, S Patel, A Kumar, I Ponomareva, R Kumar and R Vaish “Pyro-paraelectric effect in ferroelectric materials: A device perspective for transcending Curie limitation” Materials today Communication. 12, 146-151, 2017.

49. S Patel, A Chauhan, R Vaish and C S Lynch “Large barocaloric effect and pressure mediated enhancement of electrocaloric effect in Pb0.99Nb0.02(Zr0.95Ti0.05)0.08O3 ceramics” Journal of American Ceramics Society, 100(10) 4902-4911, 2017.

48. A Chauhan, S Patel, R Vaish, C R Bowen, “A review and analysis of the elasto-caloric effect for solid-state refrigeration devices: Challenges and opportunities”, MRS Energy & Sustainability, 2, E16, 2015.

47. S Patel, D Sharma, A Singh, R Vaish, “Enhanced thermal energy conversion and dynamic hysteresis behavior of Sr-Added Ba0.85Ca0.15Ti0.9Zr0.1O3 ferroelectric ceramics”, Journal of Materiomics, 2(1), 75-86, 2016.

46. D Sharma, S Patel, A Singh, R Vaish, “Thermal energy conversion and temperature-dependent dynamic hysteresis analysis for Ba0.85Ca0.15Ti0.9-xFexZr0.1O3 ceramics”, Journal of Asian Ceramic Societies, 4(1), 102-111, 2016.

45. A Chauhan, S Patel, R Vaish, “Enhanced mechanical energy conversion potential in ferroelectric single crystals”, Materials Technology, 31(5), 274-280, 2016.

44. S Patel, P Sharma, R Vaish “Enhanced electrocaloric effect in Ba0.85Ca0.15Zr0.1Ti0.9-xSnxO3 ferroelectric ceramics”, Phase Transitions, 89(11), 1062-1073, 2016.

43. S Patel, A Chauhan, R Vaish, “Large pyroelectric figure of merits for Sr-modified Ba0.85Ca0.15Ti0.9Zr0.1O3 ceramics”, Solid State Sciences, 52, 10-18, 2016.

42. S Patel, A Chauhan, R Vaish, P Thomas, “Elastocaloric and barocaloric effects in polyvinylidene di-fluoride-based polymers”, Applied Physics Letters, 108(7), 072903, 2016.

41. S Patel, A Chauhan, R Vaish, “Caloric effects in bulk lead‐free ferroelectric ceramics for solid‐state refrigeration”, Energy Technology, 4(2), 244-248, 2016.

40. S Patel, A Chauhan, R Vaish, “Electric‐field‐driven caloric effects in ferroelectric materials for solid‐state refrigeration”, Energy Technology, 4(3), 417-423, 2016.

39. S Patel, A Chauhan, R Vaish, “Elastocaloric and piezocaloric effects in lead zirconate titanate ceramics”, Energy Technology, 4(5), 647-652, 2016.

38. G Vats, S Patel, R Vaish, “An insight into thermal and vibration cyclic energy harvesting using ferroelectric ceramics” Integrated Ferroelectrics, 168(1), 69-84, 2016.

37. V P Singh, S Patel, R Vaish, “Composition dependent electrocaloric behavior of (SrxBa1-x)Nb2O6 ceramics”, Integrated Ferroelectrics, 168(1), 163-169, 2016. 

36. S Patel, K.S. Srikanth, A A B Moghal, N A Madhar, R Vaish, “Effect of sintering temperature and time on the dynamic hysteresis scaling behavior in Ba0.85Sr0.15Zr0.1Ti0.9O3 ceramics”, Integrated Ferroelectrics, 176(1), 95-108, 2016. 

35. S Patel, R Vaish, “Effect of sintering temperature and dwell time dependent dynamic hysteresis scaling behavior of (Ba0.85Ca0.075Sr0.075)(Ti0.90Zr0.10)O3 ceramics”, Ferroelectrics, 505 (1), 52-66, 2016.

34. S Patel, A Chauhan, R Vaish, “Large‐temperature‐invariant and electrocaloric performance of modified barium titanate for solid‐state refrigeration”, Energy Technology, 4(9), 1097-1105, 2016

33. S Patel, A Chauhan, J Cuozzo, S Lisenkov, I Ponomareva, R Vaish, “Pyro-paraelectric and flexocaloric effects in barium strontium titanate: A first principles approach”, Applied Physics Letters, 108(16), 162901, 2016.

32. S Patel, A Chauhan, R Vaish, “Large room temperature electrocaloric strength in bulk ferroelectric ceramics: an optimum solution”, Phase Transitions, 89(10), 1019-1028, 2016.

31. S Lisenkov, R. Herchig, S Patel, R Vaish, J. Cuozzo, I. Ponomareva, “Elastocaloric effect in carbon nanotubes and graphene”, Nano Letter, 16(11), 7008-7012, 2016.

30. S Patel, R Vaish, V S Chauhan, C Bowen, “Microstructural finite element modeling and simulation on Al–MgO composites”, International Journal of Computational Methods, 12(05), 1550030, 2015.

29. A Chauhan, S Patel, R Vaish, “Multicaloric effect in Pb(Mn1/3Nb2/3)O3-32PbTiO3 single crystals: Modes of measurement”, Acta Materialia, 97, 17-28, 2015.

28. S Patel, A Chauhan, S Kundu, N A Madhar, B Ilahi, R Vaish, K B R Varma, “Tuning of dielectric, pyroelectric and ferroelectric properties of 0.715Bi0.5Na0.5TiO3-0.065BaTiO3-0.22SrTiO3 ceramic by internal clamping”, AIP Advances, 5(8), 087145, 2015.

27. S Patel, A Chauhan, R Vaish, “Multiple caloric effects in (Ba0.865Ca0.135Zr0.1089Ti0.8811Fe0.01)O3 ferroelectric ceramic”, Applied Physics Letters, 107(4), 042902, 2015.

26. S Patel, A Chauhan, R Vaish “Electrocaloric behavior and temperature‐dependent scaling of dynamic hysteresis of Ba0.85Ca0.15Ti0.9Zr0.1O3 ceramics”, International Journal of Applied Ceramic Technology, 12(4), 899-907, 2015.

25.  G Vats, S Patel, A Chauhan, R Vaish, “Cyclic electrical energy harvesting using mechanical confinement in ferroelectric ceramics”, International Journal of Applied Ceramic Technology, 12(4), 765-770, 2015.

24. A Chauhan, S Patel, R Vaish, “Multicaloric effect in Pb(Mn1/3Nb2/3)O3-32PbTiO3 single crystals”, Acta Materialia, 89, 384-395, 2015.

23. A Chauhan, S Patel, R Vaish, “Elastocaloric effect in ferroelectric ceramics”, Applied Physics Letters, 106(17), 172901, 2015.

22. S Patel, A Chauhan, R Vaish, “Mechanical confinement for tuning ferroelectric response in PMN-PT single crystal”, Journal of Applied Physics, 117(8), 084102, 2015.

21. A N Bakshi, A A B Moghal, N A Madhar, S Patel, R Vaish, “Effect of stress on energy conversion and storage characteristics of (1-xy)PIN-xPMN-yPT single crystals”, Ferroelectrics Letters Section, 42(4-6), 107-114, 2015.

20. S Patel, A Chauhan, R Vaish, “Enhanced electrical energy storage density in mechanical confined antiferroelectric ceramic”, Ferroelectrics, 486(1), 114-125, 2015.

19. S Patel, A A B Moghal, N A Madhar, A Chauhan, R Vaish, “Cyclic piezoelectric energy harvesting in PMN-PT single crystals”, Ferroelectrics, 481(1), 138-145, 2015.

18. A Chauhan, S Patel, R Vaish, “Giant electro-mechanical energy conversion in lead-free ferroelectric materials”, Ferroelectrics Letters Section, 42(1-3), 35-42, 2015.

17. A Chauhan, S Patel, R Vaish, “Effect of directional mechanical confinement on the electrical energy storage density in 68Pb(Mn1/3Nb2/3)O3-32PbTiO3 single crystals”, Ferroelectrics, 478(1), 40-53, 2015.

16. Patel, A Chauhan, A Chauhan, R Vaish, “Temperature dependence scaling behavior of the dynamic hysteresis in 0.715Bi0.5Na0.5TiO3-0.065BaTiO3-0.22SrTiO3 ferroelectric ceramics”, Materials Research Express, 2(3), 035501, 2015.

15. S Patel, R Vaish, “Design of PZT-Pt functionally graded piezoelectric material for low-frequency actuation applications”, Journal of Intelligent Material Systems and Structures, 26(3), 321-327, 2015.

14. S Patel, A Chauhan, R Vaish, “Improved electrical energy storage density in vanadium‐doped BaTiO3 bulk ceramics by addition of 3BaO-3TiO2-B2O3 glass”, Energy Technology, 3(1), 70-76, 2015.

13. S Patel, A Chauhan, R Vaish, “Enhanced electrocaloric effect in Fe-doped (Ba0.85Ca0.15Zr0.1Ti0.9)O3 ferroelectric ceramics”, Applied Materials Today, 1(1), 37-44, 2015.

12. A Chauhan, S Patel, R Vaish, C R Bowen, “Anti-ferroelectric ceramics for high energy density capacitors”, Materials, 8(12), 8009-8031, 2015.

11. A Chauhan, S Patel, R Vaish, “Enhanced electrocaloric effect in pre-stressed ferroelectric materials”, Energy Technology, 3(2), 177-186, 2015.

10. S Patel, A Chauhan, R Vaish, P Thomas, “Enhanced energy storage performance of glass added 0.715Bi0.5Na0.5TiO3-0.065BaTiO3-0.22SrTiO3 ferroelectric ceramics”, Journal of Asian Ceramic Societies, 3(4), 383-389, 2015.

9. S Patel, A Chauhan, R Vaish “Enhancing electrical energy storage density in anti-ferroelectric ceramics using ferroelastic domain switching”, Materials Research Express, 1(4), 045502, 2014.

8. S Patel, S K Pandey, “Pressure-induced spin state transition in BiFeO3: an ab initio electronic structure calculation”, The European Physical Journal Applied Physics, 67(2), 20602, 2014.

7. A Chauhan, S Patel, R Vaish, “Mechanical confinement for improved energy storage density in BNT-BT-KNN lead-free ceramic capacitors”, AIP Advances, 4(8), 087106, 2014.

6. S Patel, R Vaish, N Sinha, C R Bowen, “Finite element analysis of the microstructure of AlN–TiN composites”, Strain, 50(3), 250-261, 2014.

5. S Patel, A Chauhan, R Vaish, “Enhanced energy harvesting in commercial ferroelectric materials”, Materials Research Express, 1(2), 025504, 2014.

4. S Patel, A Chauhan, R Vaish, “Analysis of high‐field energy harvesting using ferroelectric materials”, Energy Technology, 2(5), 480-485, 2014.

3. S Patel, A Chauhan, R Vaish, “A technique for giant mechanical energy harvesting using ferroelectric/antiferroelectric materials”, Journal of Applied Physics, 115(8), 084908, 2014.

2. A Chauhan, S Patel, G Vats, R Vaish, “Enhanced thermal energy harvesting using Li, K‐doped Bi0.5Na0.5TiO3 lead‐free ferroelectric ceramics”, Energy Technology, 2(2), 205-209, 2014.

1. S Patel, R Vaish, “Finite element analysis of WC-Al2O3 composites”, International Journal of Computational Materials Science and Engineering, 3(1), 1450002, 2014.

2. S Patel editor of book “Flexoelectricity in Ceramics and their Application”, 2024, ISBN: 9780323952705, Elesvier, https://doi.org/10.1016/C2021-0-02229-X

1. R Goyal (Editor), S Patel (Editor), A Sharma (Editor) "Renewable Energy: Accelerating the Energy Transition (Energy Systems in Electrical Engineering)" 2023, Springer Singapore, ISBN-9789819961184. https://doi.org/10.1007/978-981-99-6116-0

15. A Gaur, A., N S Thakur, S Patel, Chapter 7- Classification and Performance Enhancement of Solar Dryers. In: Goyal, R., Patel, S., Sharma, A. (eds) Renewable Energy: Accelerating the Energy Transition. Energy Systems in Electrical Engineering. Springer, Singapore. 2024, Pages 111-137, ISBN 9789819961184, https://doi.org/10.1007/978-981-99-6116-0_7

 14. N Saurabh, S Patel, (2024). Chapter 15- Methods to Enhance the Pyroelectric Properties and Energy Harvesting. In: Goyal, R., Patel, S., Sharma, A. (eds) Renewable Energy: Accelerating the Energy Transition. Energy Systems in Electrical Engineering. Springer, Singapore. 2024, Pages 289-328, ISBN 9789819961184, https://doi.org/10.1007/978-981-99-6116-0_15

 13. N Saurabh, S Patel, (2024). Chapter 16- Energy Storage Properties in Bulk Lead-Free Relaxor Ferroelectric Ceramics. In: Goyal, R., Patel, S., Sharma, A. (eds) Renewable Energy: Accelerating the Energy Transition. Energy Systems in Electrical Engineering. Springer, Singapore. 2024, Pages 329-383, ISBN 9789819961184, https://doi.org/10.1007/978-981-99-6116-0_16

 12. K. B. Shingare and S Patel “Chapter 1: Flexoelectricity theories and modelling in ceramics” Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 1-44, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00012-0.

 11. N Saurabh and S Patel “Chapter 3: Flexoelectricity in SrTiO3 based ceramics” Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 67-95, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00003-X.

 10. N Saurabh and S Patel “Chapter 6: Flexopyroelectricity in ceramics” Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 157-179, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00002-8.

 9. S Patel “Chapter 7: Flexoelectricity in ceramics composites” Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 181-208, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00011-9.

 8. S Patel “Chapter 9: Flexocaloric effect in ceramics”, “Flexoelectricity in Ceramics and their Application,” Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 243-274, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00013-2.

 7. S Patel “Chapter 11: Converse/Inverse flexoelectric effect in ceramics”, Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 313-353, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00006-5.

 6. S Patel “Chapter 12: Flexoelectric effect: Ambiguities”, Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 355-396, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00008-9.

 5. S Patel “Chapter 13: Flexoelectricity in 2D boron nitride and other materials”, Editor(s): Satyanarayan Patel, In Elsevier Series on Advanced Ceramic Materials, Flexoelectricity in Ceramics and their Application, Elsevier, 2024, Pages 397-436, ISBN 9780323952705, https://doi.org/10.1016/B978-0-323-95270-5.00007-7.

 4. N Novak, S Patel and R Vaish Chapter 17- “Electrocaloric devices using cantilever structures” Editor(s): Andrei L. Kholkin, Oleg V. Pakhomov, Alexander A. Semenov, Alexander Tselev, In Woodhead Publishing Series in Electronic and Optical Materials, The Electrocaloric Effect, Woodhead Publishing, 2023, Pages 379-405, ISBN 9780128216477, https://doi.org/10.1016/B978-0-12-821647-7.00017-7.

 3. N Saurabh, S. Patel, Chapter 6-Effect of Stress on Ferroelectric, Energy Storage and Harvesting Properties of 0.4BZT-0.6BCT Ceramics. In: Reddy, A.N.R., Marla, D., Favorskaya, M.N., Satapathy, S.C. (eds) Intelligent Manufacturing and Energy Sustainability. Smart Innovation, Systems and Technologies, vol 265. Springer, Singapore. 2022, Pages.57-65, ISBN-9789811664823, https://doi.org/10.1007/978-981-16-6482-3_6

2. S Patel,  Chpater 7- "Thermomechanical Analysis of Ceramic Composites Using Object Oriented Finite Element Analysis" In C Volosencu and C S Ryoo. (eds) Simulation Modeling, IntechOpen, 2021, Pages 147, ISBN 9781839696855,  https://doi.org/10.5772/intechopen.100190

1. S Patel, Chapter 17- Pyroelectric Energy Harvesting Potential in Lead-Free BZT-BST Ceramics. In: Reddy, A., Marla, D., Favorskaya, M.N., Satapathy, S.C. (eds) Intelligent Manufacturing and Energy Sustainability. Smart Innovation, Systems and Technologies, vol 213. Springer, Singapore. 2021, Pages 175-183, ISBN-9789813344433, https://doi.org/10.1007/978-981-33-4443-3_17

8. N Saurabh and S Patel “Enhanced energy storage in BaTi0.92Sn0.08O3 ceramics by compressive stress” presented in 2. International sciences and innovation congress by International Science and Art Research Center, Ankara, Turkey, 22-23 May, 2021. Abstract Book-Page No. 251, ISBN-9786257636872.

7. N Saurabh and S Patel “Stress effect on energy storage properties of BaTiO3 bulk ceramics” presented in Al-Farabi International Congress on Applied Sciences – II 'Nakhchivan' University, Azerbaijan, 2-4 May, 2021. Abstract Book-Page No. 127, ISBN-9786257898416.

6. Poster: S Patel, P Keil, T Frömling, and J Rödel “Potential barriers at ZnO-ZnO nanowire interfaces” International workshop on Grain boundaries in semiconducting oxides, Edesheim, Germany, 8-12th April 2018. 

5. S Patel“Elastocaloric Effect for Solid State Refrigeration Devices” Proceedings of International Conference on Science, Management, Engineering and Technology 2015 (ICSMET 2015), page no. 84-90, 18-19th march 2015, Traders Hotel, Dubai, UAE.

4. S Patel and R Vaish “Thermal energy conversion potential in lead-free ferroelectric ceramic” The Energy and Materials Research Conference (EMR2015), page no. 221, 25-27th February 2015, Madrid, Spain.

3. Y Kashyap, A Bansal, A K Sao, and S Patel, “Comparative Study of Parameter Estimation Methods for Solar Irradiation Forecasting” presented in 4th International Conference on Power and Energy Systems (ICPES 2014), 21-23rd November, 2014, Singapore, published in Journal of Clean Energy Technologies, Vol. 4, No. 3, page no. 192-196, May 2016

2. D K Johar, S Patel, P Gupta, D Sharma, S L Soni and RGoyal “Energy and Exergy Analysis of Pebble Bed Energy Storage System”13th International Conference on Sustainable Energy Technologies (SET2014), Paper ID: SET2014-E30027, 25-28th August, 2014, Geneva, Switzerland.

1. S Patel, D K Johar, D Sharma, and P K Gupta “Experimental investigation of pebble bed heat recovery and Storage system for compression ignition engine exhaust” The 3rd International Conference on Microgeneration and Related Technologies by MICROGEN, April 15-17th 2013, at Naples, Italy.

3. S Patel “Flexo/elasto-caloric response in PMN-34PT Single Crystal” Conference Proceeding A National Seminar on Ferroelectric and Dielectrics XXI NSFD-2021 Organized by The Rashtrasant Tukadoji Maharaj Nagpur University, Nagpur, Maharashtra, 10-13th January 2021, Page No.-40

2. S Patel “Pyroelectric figures of merit and energy harvesting potential in bulk lead-free ferroelectric cement composites” 107th Indian Science Congress held at University of Agricultural Sciences, GKVK Campus, Bangalore, Karnataka 3-7th January, 2020.

1. S Patel “Demonstration of multiple caloric effects in bulk lead-free ferroelectric ceramics” 103rd Indian Science Congress held at University of Mysuru, Mysore, Karnataka 3-7th January, 2016   

1. Invited talk on “Electroceramics” 5th September, 2019 in Materials Research Centre, at Malviya National Institute of Technology Jaipur

2. Coordinator of TEQIP-III Sponsored two days (September 30th – October 1st, 2019) workshop on “Latest Trends in Experimental Mechanical Engineering” organized by Department of Mechanical Engineering, Malaviya National Institute of Technology Jaipur, India & College of Technology and Engineering, Udaipur India,

3. Session Chair on Multiscale modeling and Manufacturing at 11th International Conference on Precision, Meso, Micro & Nano Engineering (COPEN 11) held at Indian Institute of Technology Indore, India, from December 12th -14th, 2019.

4. Keynote speaker in the online short-term course on “Emerging Trends in Mechanical Engineering” from 8-12th June 2020 on “Solid-state Refrigeration and Energy Storage” at Dr. K.N. Modi University Newai, Rajasthan.

5. Expert talk in the online Faculty Development Programme on “Recent Advances In Renewable Energy Technologies For Sustainable Development” from 21-22th August 2020 on “Not-in-kind Cooling Technologies” Organized by Rajasthan Technical University, Kota and Jaipur Engineering College Jaipur

6. Session speaker in the online AICTE Training And Learning (ATAL) FDP in “Environment-Friendly Refrigerants & Cycles for Refrigeration and Air-Conditioning Applications” from 7-11th September 2020, on "Solid-State Refrigeration Technologies" Organized by the Department of Mechanical Engineering, St. Joseph’s College of Engineering, OMR, Chennai. (https://www.youtube.com/watch?v=dps0Msz-dpU)

7. Expert talk in the online workshop on “Energy Harvesting from Vibrating Structures: Applications and Advances” organized by Department of Mechanical Engineering, SRM Institute of Science and Technology, Kattankulathur, Chennai 25-30 October 2021 Piezoelectric materials for vibration energy harvesting”

8. Expert talk in the Short Term Course on “3D and Additive manufacturing of Piezoelectric ceramics” organized by Department of Mechanical Engineering, IIT Indore on “Advances in Manufacturing Engineering and Materials”  April 4-9, 2022

9. Organized Short Term Course under AICTE-QIP on “Not-in-kind of Cooling Technologies and Thermal Management for Electronics” February 21-26, 2022 at IIT Indore.

10.Expert talk on “: Pyroelectric energy harvesting” in SERB sponsored short-term course (Karyashala) on “Introduction to Computational Fluid Dynamics with Practical Applications”, July 10 - 15, 2022 (AV/KAR/2022/0321)

11. A member (National Advisory Committee) and reviewer of “International Conference on Progressive Research in Industrial & Mechanical Engineering (PRIME - 2021)” Organized By Department of Mechanical Engineering, National Institute of Technology Patna, India, 5 -7 August 2021

12. A member (Technical Committee) and reviewer of “ International Conference on Energy Conversion and Thermo-fluid Systems (i-CONECTS21) Organized By Department of Mechanical Engineering, Malaviya National Institute of Technology Jaipur, Rajasthan, India 17 -18 July 2021

13. Expert talk on “Energy Conversion techniques” SERB sponsored short-term course on “Introduction to Computational Fluid Dynamics with applications in Energy Research”, July 26 - 31, 2021