Publications

 Google Scholar Profile of Dr. Menka Jain

2024

[124] Evidence for a Giant Magneto-Electric Coupling in Bulk Composites with Coaxial Fibers of Nickel–Zinc Ferrite and PZT, Ge, J. Zhang, S. Saha, S. Acharya, C. Kshirsagar, S. Menon, M. Jain, M. R. Page, and G. Srinivasan, J. Compos. Sci., 8 (2024) 309. COVER PAGE

2023

[123] A Novel Spinel Ferrite-Hexagonal Ferrite Composite for Enhanced Magneto-Electric Coupling in a Bilayer with PZT, S. Saha, S. Acharya, M. Popov, T. Sauyet, J. Pfund, R. Bidthanapally, M. Jain, M. R. Page, and G. Srinivasan, Sensors, 23 (2023) 9815.

[122] Mott insulating low thermal expansion perovskite TiF3, D. Sheets, K. Lyszak, M. Jain, G. W. Fernando, I. Sochnikov, J. Franklin, J. N. Hancock, and R. M. Geilhufe, Phys. Rev. B, 108 (2023) 235140.

[121] Electric Field Tuning of a Nickel Zinc Ferrite Resonator by Non-Linear Magnetoelectric Effects, M. Popov, A. Machi, J. Inman, R. Bidthanapally, S. Saha, H. Qu, M. Jain, M. R. Page, and G. Srinivasan, Scientific Report, 13 (2023) 18346.

[120] Magnetocaloric properties of TbCrO3 and TmCrO3 and their comparison with those of the other RCrO3 systems (R = Gd, Dy, Ho, and Er), J. Shi, M. Seehra, J. Pfund, S. Yin, and M. Jain, Journal of applied physics, 134 (2023) 103903.

[119] Observation of c-axis magnetization at low temperatures in weak ferromagnet FeBO3 reveals the onset of a Morin-type transition, J. Franklin, J. Pfund, J. Bedard, M. Jain, and I. Sochnikov, Physical Review B, 107 (2023) 214433.

[118] Highly piezoelectric, biodegradable and flexible amino acid nanofibers for medical applications, M. T. Chorsi, Thinh T. Le, Feng Lin, T. Vinikoor, R. Das, J. F. Stevens, C. Mundrane, J. Park, K. T. M. Tran, Y. Liu, J. Pfund, R. Thompson, W. He, M. Jain, M. D. Morales-Acosta, O. R. Bilal, K. Kazerounian, H. Ilies, T, D. Nguyen, Science Advance, 9, (2023) eadg6075.

2022

[117] Microwave Hydrothermal Synthesis of Mesoporous First-Row Transition Metal Ferrites, L. A. Achola, S. Shubhashish, Z. Tobin, Yue Su, L. F. Posada, Y. Dang, J. Shi, A. G. Meguerdichian, M. Jain, and S. L. Suib, Chemistry of Materials, 34 (2022) 7692.

[116] Structural and electronic properties of rare earth chromites: A computational and experimental study, J. Shi (G), Gayanath W. Fernando, Y. Dang (G), S.L. Suib, and M. Jain, Physical Review B, 106 (2022) 165117. ht

2021

[115] Comparison of the dielectric and magnetocaloric properties of bulk and film of GdFe0.5Cr0.5O3, J. Shi, M.S. Seehra, Y. Dang, S. L. Suib, and M. Jain, J. of Applied Physics, 129 (2021) 243904 (2021).

[114] Structure-property correlations and scaling in the magnetic and magnetocaloric properties of GdCrO3 particles, J. Shi, T. Sauyet, Y. Dang, S. L. Suib, M. S. Seehra, and M. Jain, J. Phys.: Condens. Matter, 33 (2021) 205801.

2020

[113] Spin dynamics and relaxation in 7.6 nm thin film of La7Sr0.3MnO3/SrTiO3: ac magnetic susceptibility and magnetic viscosity investigations, N. Mottaghi, M. S. Seehra, J. Shi, M. Jain and M. B. Holcomb, Journal of Applied Physics, 128 (2020) 073903.

[112] Lattice Dynamics of Barium Titanate: Single Crystal, Ceramic and Polycrystalline Film, A. Maslova, Y. I. Yuzyuk , M. Jain, and S. A. Barannikova, Physica Status Solidi B, 257 (2020) 1900762.

[111] Antiferromagnetic and dielectric behavior in polycrystalline GdFe5Cr0.5O3thin film, J. Shi, M. Johnson, M. Zhang, P. X. Gao, and M. Jain, Applied Physics Letters Materials, 8 (2020)  031106.

[110] Crystalline Mesoporous Perovskite-Type Oxides: Porosity-Controlled Electromagnetic Response, L. Jin, X. Su, J. Shi, K.C. Shih, D. Cintron, T. Cai, Mu-Ping Nieh, Ou Chen, S. L. Suib, M Jain, and J. He, Advanced Functional Materials, 30 (2020) 1909491.

[109] Enhanced Visible-Light-Assisted Peroxymonosulfate Activation on Cobalt-Doped Mesoporous Iron oxide for Orange II Degradation, L. A. Achola, A. Ghebrehiwet, J. Macharia, P. Kerns, J. He, J. Fee, C. Tinson, J. Shi, S. March, M. Jain, and S.L. Suib, Applied Catalysis B:  Environmental, 263 (2020) 118332.

2019

[108] Graphene and Poly(3,4-ethylene dioxythiophene): Poly(4-styrene sulfonate) on Nonwoven Fabric as a Room Temperature Metal and Its Application as Dry Electrodes for Electrocardiography, S. Sinha, F. A. Alamer, S. Woltornist, Y. Noh, F. Chen, A. McDannald, C. Allen, M. Jain, K. Chon, D. Adamson, G. Sotzing, ACS Applied Materials & Interfaces, 11 (2019) 32339.

[107] Biocompatible superparamagnetic carriers of chondroitin sulfate, M. R. Rivera, L. G. Paterno, N. L. Chaves, D. Gregurec, S. N. Báo, S. E. Moya, M. Jain, R. B. de Azevedo, P. C. Morais, and M. A. G. Soler, Materials Research Express, 6, 066106 (2019).

[106] Magnetic and Tunable Dielectric Properties of DyCrO3 Thin Films, A. McDannald, S. Vijayan, J. Shi, A. Chen, Q. X. Jia, M. Aindow, and M. Jain, Journal of Materials Science, 54, 8984 (2019).

2018

[105] Enhancement in magnetocaloric properties of ErCrO3 via A-site Gd substitution, J. Shi, S. Yin, M. S. Seehra, and M. JainJ. of Applied Physics,  123, 93901 (2018).

[104] Effect of Gd substitution on the structural, magnetic, and magnetocaloric properties of HoCrO3, S. YinW. ZhongC.J. GuildJ. ShiS.L. SuibL. F. Cótica, and M. Jain, J. of Applied Physics, 123, 053904 (2018).

2017

[103] Magnetic and magneto-caloric properties of HoCrO3 tuned by selective rare-earth doping, S. Yin, M.S. Seehra, C.J. Guild, L. Suib, N. Poudel, B. Lorenz, and M. Jain, Physical Review B, 95, 184421 (2017).

[102] Particle size dependence of the magnetic and magneto-caloric properties of HoCrO3, S. Yin, T. Sauyet, M. S. Seehra, and M. Jain, J. Applied Physics, 121, 063902 (2017).

[101] Switchable 3-0 Magnetoelectric Nanocomposite Thin Film with High Coupling, A. McDannald, L. Ye, C. Cantoni, G. Sreenivasulu, B. D. Huey, and M. Jain, Nanoscale, 9 (2017) 3246.

[100] Magnetic properties of pure and Fe doped HoCrO3 thin films fabricated via a solution route, S. Yin, T. Sauyet, C. Guild, S. L. Suib, and M. Jain, J. Magnetism and Magnetic Materials, 428 (2017) 313.

[99] An efficient organic solvent-free solution-processing strategy for high-mobility metal chalcogenide film growth, J. Zhao, I. Jeon, Q. Yi, M. Jain,  H. Rummeli, P. Song, Y. Matsuo, and G. Zou, Green Chemistry, 19 (2017) 946.

[98] Modulated magneto-thermal response of La85Sr0.15MnO3 and (Ni0.6Cu0.2Zn0.2)Fe2O4 composites for thermal energy harvesters, H. C. Song, D. Maurya, J. Chun, Y. Zhou, M.E. Song, D. Gray, N. K. Yamoah, D. Kumar, A. McDannald, M. Jain, and S. Priya, Energy Harvesting and Systems, 4 (2017) 57.

2016

[97] Enhancement in magnetocaloric properties of holmium chromite by gadolinium substitution, S. Yin and M. Jain, Journal of Applied Physics, 120 (2016) 043906.

[96] Relationship between the ferromagnetic phase and the magnetoelectric coupling in hot pressed Pb(Mg1/3Nb2/3)O3-PbTiO3 based particulate composites, L. Zabotto, R. R. G. Paranhos, M. Jain, A. J. Gualdi, A. J. A. Oliveira, J. A. Eiras, and D.Garcia, Integrated Ferroelectrics, 174 (2016) 121.

[95] Hydroxyapatite substituted by transition metals: Experiment and theory, M. E. Zilm, L. Chen, V. Sharma, A. McDannald, M. Jain, R. Ramprasad, and M. Wei, Physical Chemistry Chemical Physics, 18 (2016) 16457.

[94] Negative exchange bias in single phase Dy1-xNdxCrO3 induced by Nd doping, A. McDannald, C. Dela Cruz, M. S. Seehra, and M. Jain, Physical Review B, 93 (2016) 184430.

[93]  Magnetic and magnetocaloric properties of iron substituted holmium chromite and dysprosium chromite, Shiqi Yin

2015

[92] Magnetocaloric properties of rare-earth substituted DyCrO
[91] Magnetic exchange interactions of rare-earth substituted DyCrO3 bulk powders, A. McDannald, L. Kuna, M.S. Seehra, and M. Jain, Physical Review B 91 (2015) 224415.
[90] Magnetic and transport properties of epitaxial Fe3O4 films grown at different oxygen pressure, S. Alraddadi, W. Hines, T. Yilmaz, G.D. Gu, A. McDannald, M. Jain and B. Sinkovic, Materials Research Express 2 (2015) 066402.
[89] Magnetic and magnetocaloric properties of TbMnO3 and Tb0.67R0.33MnO3 (R=Dy, Y, and Ho) bulk powders, M. Staruch, L. Kuna, A. McDannald, and M. Jain, Journal of Magnetism and Magnetic Materials 377 (2015) 117.
[88] Dopant-mediated Structural and Magnetic Properties of TbMnO3, V. Sharma, A. McDannald, M. Staruch, R. Ramprasad and M. Jain, Applied Physics Letters 107 (2015) 012901.
[87] Preparation of Conductive Graphene/Graphite Infused Fabrics Using Interface Trapping Method, S. J. Woltornist, F. A. Alamer, A. McDannald, M. Jain, G. A. Sotzing, and D. H. Adamson, Carbon 81 (2015) 38.

2014

[86] Effect of Mn Doping on the Properties of Sol-gel Derived Pb0.3Sr0.7TiO3 Thin Films, M. Staruch, K. Cil, H. Silva, J. Xiong, Q.X. Jia, and M. Jain, Integrated Ferroelectrics, 470 (2014) 227.
[85] An intrinsically magnetic biomaterial with tunable magnetic properties, M. E. Zilm, M. Staruch, M. Jain and Mei Wei, Journal of Materials Chemistry B, (2014) DOI: 10.1039/c4tb00925h.
[84] Magnetic Ordering in TbMn0.5Cr0.5O3 studied by neutron diffraction and first-principles calculations, M. Staruch, V. Sharma, C. Dela Cruz, R. Ramprasad, and M. Jain, Journal of Applied Physics, 116 (2014) 033919.
[83] Evidence of antiferromagnetic and ferromagnetic superexchange interactions in bulk TbMn1-xCrxO3, M. Staruch and M. Jain, Journal of Physics: Condensed Matter, 26 (2014) 046005.
[82] Study of Lattice Dynamics of Macro-, Micro-, and Nanostructured Barium Titanate by Raman Spectroscopy, O. A. Maslova, F. V. Shirokov, Yu. I. Yuzyuk, M. El Marssi, M. Jain, N. Ortega, and R. S. Katiyar, Physics of the Solid State, 56 (2014) 310.
[81] Nanocomposite Films with Magnetic Sensing Properties, M. Staruch and M. Jain, J. Solid State Chemistry, 214 (2014) 12.

2013

[80] Magnetic and Magnetocaloric Properties of Bulk DyCrO3, A. McDannald, L. Kuna, and M. Jain, Journal of Applied Physics, 114, (2013) 113904.
[79] Исследование динамики решетки макро-, микро-и наноструктурированного титаната бария методом спектроскопии комбинационного рассеяния света, О.А. Маслова, Ф.В. Широков, Ю.И. Юзюк, M.El Marssi, M. Jain, N. Ortega, and R.S. Katiyar, Физика твердого тела, 2014, том 56, вып. 2.
[78] Long-Range Magnetic Ordering in Bulk Tb1-xMxMnO3 (M = Ca, Sr), M. Staruch and M. Jain, Journal of Physics: Condensed Matter, 25 (2013) 296005.
[77] Magnetic and electronic structure of the film-stabilized Mott insulator BaCrO3, Z. H. Zhu, F. J. Rueckert, J. I. Budnick, W. A. Hines, Jain, H. Zhang, and B. O. Wells, Physical Review B, 87, (2013) 195129.

[76] Magnetoelectric Coupling in Solution derived 3-0 type PbZr0.52Ti0.48O3:xCoFe2O4 Nanocomposite Films, A. McDannald, M. Staruch, G. Sreenivasulu, C. Cantoni, G. Srinivasan, and M. Jain, Applied Physics Letters, 102 (2013) 122905.
[75] Effects of Holmium Substitution on Multiferroic Properties in Tb0.67Ho0.33MnO3, M. Staruch, G. Lawes, A. Kumarasiri, L. F. Cotica, and M. Jain, Applied Physics Letters, 102 (2013) 062908.
[74] Structural and Magnetic Properties of Multiferroic Bulk TbMnO3, M. Staruch, D. Violette, and M. Jain, Materials Chemistry and Physics, 139 (2013) 897.
[73] Systematic Study of Magnetotransport Properties and Enhanced Low-field Magnetoresistance in thin films of La0.67Sr0.33MnO3 + Mg(O), M. Staruch, C. Cantoni, and M. Jain, Applied Physics Letters, 102 (2013) 062416.
[72] Synthesis and Characterization of Iron Substituted Hydroxyapatite via a Simple Ion-Exchange Procedure, E. Kramer, A. Morey-Oppenheim, M. Staruch, S. Suib, M. Jain, J. Budnick, and M. Wei, J. Materials Science, 48, (2013) 665.

2012                                                                                                     

[71] ZnO/LSMO Nanocomposites for Energy Harvesting, R. Kinner, A-M. Azad, G. Srinivasan, G. Sreenivasulu, and M. Jain, Smart Nanosystems in Engineering and Medicine, 2 (2012) 1.
[70] Surface contributions to the alternating current and direct current magnetic properties of oleic acid coated CoFe2O4 nanoparticles, A. McDannald, M. Staruch, and M. Jain, J. Appl. Physics,112, (2012) 123916.
[69] Effect of Mn Doping on the Properties of Sol-gel Derived Pb0.3Sr0.7TiO3 Thin Films, M. Staruch, K. Cil, H. Silva, J. Xiong, Q.X. Jia, and M. Jain, Integrated Ferroelectrics, (2012) (accepted).
[68] Simple and facile approach to synthesize magnetite nanoparticles and assessment of their effects on blood cells, L. F. Cótica, V. F. Freitas, G. S. Dias, I. A. Santos, S. C. Vendrame, N. M. Khalil, R. M. Mainardes, M. Staruch, and M. Jain, J. of Magnetism and Magnetic Materials, 324, (2012) 559.
[67] Low-Field Magnetoresistance in La0.67Sr0.33MnO3:ZnO Composite Film, M. Staruch, H. Gao, P.-X. Gao, and M. Jain, Advanced Functional Materials, 22, (2012) 2591.

2011

[66] Hierarchically-structured free-standing hydrogels with liquid crystalline domains and magnetic nanoparticles as dual physical crosslinkers, Y. Zhou, N. Sharma, P. Deshmukh, R.K. Lakhman, M. Jain, and R. Kasi, J. American Chemical Society, 134, (2011) 1630.
[65] Structural and Magnetic Properties of CoFe2O4 and Co0.5Zn0.5Fe2O4 Nanoparticles for the Magnetoelectric Composite Films, M. Staruch, D. Hires, D. Violette, D. Navarathne, G. A. Sotzing, and M. Jain, Integrated Ferroelectrics, 131, (2011) 102.

[64] Enhanced Low-field Magnetoresistance in La0.67Sr0.33MnO3:MgO Composite Films, M. Staruch, D. Hires, A. Chen, Z. Bi, H. Wang, and M. Jain, J. Appl. Phys., 110, (2011) 113913.
[63] Magnetic study of the Co-MCM-41 catalyst: Before and after reaction, A. M. Morey, N. Li, W. A. Hines, D. M. Perry, M. Jain, G. L. Haller, and S. L. Suib, J. Appl. Phys., 110, (2011) 103904.

[62] Pr0.6Sr0.4CoO3-δ electrocatalyst for solid oxide fuel cell cathode introduced via infiltration, S. Lee, N. Miller, M. Staruch, K. Gerdes, M.Jain, and A. Manivannan, Electrochimica Acta, 56, (2011) 9904.
[61] Magnetotransport Properties of Pr0.5Ca0.5MnO3 Thin Films Grown by a Solution Route, M. Staruch, L. Stan, J. H. Lee, H. Wang, J. I. Budnick, and M. Jain, J.Applied Physics, 110, (2011) 013921.
[60] Fabrication of DNA–Magnetite Hybrid Nanofibers for Water Detoxification, D. Navarathne, Y. Ner, M. Jain, J. G. Grote, and G. A. Sotzing, Materials Letters, 65, (2011) 219.
[59] Structure and magnetic properties of three-dimensional (La,Sr)MnO3 nanofilms on ZnO nanorod arrays, H. Gao, M. Staruch, M. Jain, P. X. Gao, P. Shimpi, Y. Guo, W. Cai, and Hui-jan Lin, Applied Physics Letters, 98, (2011) 123105.

2010

[58] Magnetotransport properties of epitaxial Pr0.5Ca0.5MnO3 films grown by a solution technique, M. Staruch, L. Stan, F. Ronning, J. D. Thompson, Q. X. Jia, J. Yoon, H. Wang, and M. Jain, J. Magnetism and Magnetic Materials, 322, (2010) 2708.
[57] Recycleable and electrically conducting carbon nanotube composite films, G. Zou, M. Jain, H. Yang, Y. Zhang, D. Williams, and Q. X. Jia, Nanoscale, 2, (2010) 418.

2009

[56] Tensile strain effect on the superconductivity in FeSe thin films , Y. Nie, E. Brahimi, J. I. Budnick, W. A. Hines, M. Jain, and B. O. Wells, Applied Physics Letters, 94, (2009) 242505.
[55] Vertical interface effect on the physical properties of self-assembled nanocomposite epitaxial films, H. Yang, H. Wang, Y. Yoon, Y. Q. Wang, M. Jain, D. M. Feldmann, P. C. Dowden, J. L. MacManus-Driscoll, and Q. X. Jia, Advanced Materials, 21, (2009) 3798.
[54] Vertical connection of carbon nanotubes to silicon at room temperature using a chemical route, G. Zou, H. Yang, M. Jain, H. Zhou, D. Williams, M. Zhou, T. McCleskey, A. Burrell, Q. X. Jia, Carbon, 47, (2009) 933.

2008

[53] Strong and ductile colossal carbon tubes with walls of rectangular macro-pores, H. Peng, D. Chen, J. Y. Huang, S. B. Chikkannanavar, J. Hanisch, M. Jain, D. E. Peterson, S. K. Doorn, Y. Lu, Y. T. Zhu, and Q. X. Jia, Physical Rev. Lett., 101, (2008) 145501.
[52] Ultrathin epitaxial superconducting niobium nitride films grown by a chemical solution technique , G. Zou, M. Jain, H. Zhou, H. Luo, S. A. Baily, L. Civale, E. Bauer. T. M. McClesky, A. K. Burrell, and Q. X. Jia, Chemical Communications, 10 (2008) 6022.
[51] BaTiO3-related ferroelectric thin films by polymer assisted deposition , M. Jain, E. Bauer, Y. Lin, H. Wang, A. K. Burrell, T. M. McClesky, and Q. X. Jia, Integrated Ferroelectrics, 100 (2008) 132. (by invitation)
[50] Leakage mechanisms of self-assembled (BiFeO3)0.5:(Sm2O3)0.5 nanocomposite films, H. Yang, H. Wang, G.F. Zou, M. Jain, N. A. Suvorova, D. M. Feldmann, P. C. Dowden, R. F. DePaula, J. L. MacManus-Driscoll, A. J. Taylor, and Q. X. Jia, Applied Physics Letters, 93 (2008) 142904.
[49] Composite Carbon Nanotube/Silica Fibers with Improved Mechanical Strengths and Electrical Conductivities, H. Peng, M. Jain, D. E. Peterson, Y. Zhu, and Q. X. Jia, Small, 4 (2008) 1964.
[48] Rectifying current-voltage characteristics of BiFeO3/Nb-doped SrTiO3 heterojunctions, H. Yang, H. M. Luo, H. Wang, I. O. Usov, N. A. Suvorova, M. Jain, D. M. Feldmann, P. C. Dowden, R. F. DePaula, and Q. X. Jia, Applied Physics Letters, 92 (2008) 102113.
[47] Tunable dielectric properties of lead strontium titanate thin films by sol-gel technique, M. Jain, N. K. Karan, J. Yoon, H. Wang, R. S. Katiyar, and Q. X. Jia, IEEE International Symposium on Applications of Ferroelectrics, 3 (2008) article number 4693842.
[46] Temperature-dependent leakage mechanisms of BiFeO3 films, H. Yang, M. Jain, H. Zhou, H. M. Luo, and Q. X. Jia, IEEE International Symposium on Applications of Ferroelectrics, 3 (2008) article number 4693776.
[45] Mixed-valence perovskite thin films by polymer assisted deposition, M. Jain, E. Bauer, F. Ronning, M. F. Hundley, L. Civale, H. Wang, B. Maiorov, A. K. Burrell, T. M. McClesky, S. R. Foltyn, R. F. DePaula, and Q. X. Jia, Special issue of the Journal of the American Ceramic Society, 91 (2008) 1858. (Invited paper).

Prior to -2007                                                                                          

[44] Vertically-aligned, pearl-like carbon nanotube arrays for fibre spinning, H. Peng, M. Jain, Q. Li, D. E. Peterson, Y. Zhu, and Q. X. Jia, Journal of the American Chemical Society, 130 (2007) 1130.
[43] Self-assembled epitaxial nanocomposite BaTiO3-NiFe2O4 films prepared by polymer-assisted deposition, H. M. Luo, H. Yang, S. A. Baily, O. Ugurlu, M. Jain, M. Hawley, T. M. McCleskey, A. K. Burrell, E. Bauer, L.Civale, T. G. Holesinger,and Q. X. Jia, Journal of the American Chemical Society, 129 (2007) 14132.
[42] High tunability of lead strontium titanate thin films using conductive LaNiO3 as electrodes, M. Jain, N. K. Karan, J. Yoon, H. Wang, I. Usov, A. S. Bhalla, R. S. Katiyar, and Q. X. Jia, Applied Physics Letters, 91 (2007) 072908.
[41] Optical and structural properties of single-crystal epitaxial p-type transparent conductive oxide thin films, H. M. Luo, M. Jain, T. M. McCleskey, E. Bauer, A. K. Burrell, and Q. X. Jia, Advanced Materials, 19 (2007) 3604.
[40] Temperature-dependent leakage mechanism of Pt/BiFeO3/SrRuO3 thin film capacitors, H. Yang, M. Jain, N. A. Suvorova, H. Zhou, H. M. Luo, P. C. Dowden, R. F. DePaula, D. M. Feldmann, S. R. Foltyn, and Q. X. Jia, Applied Physics Letters, 91 (2007) 072911.
[39] Ferroic metal-oxide films grown by polymer assisted deposition, M. Jain, Y. Lin, P. Shukla, Y. Li, H. Wang, M. F. Hundley, A. K. Burrell, T. M. McCleskey, S. R. Foltyn, and Q. X. Jia, Thin Solid Films, 515 (2007) 6411.
[38] Effective thickness and dielectric constant of interfacial layers at Pt/Bi3.25Nd0.75Ti3O12/SrRuO3 capacitors, H. Yang, N. A. Suvorova, M. Jain, B. S. Kang, Y. Li, M. E. Hawley, P. C. Dowden, R. F. DePaula, and Q. X. Jia, Applied Physics Letters, 90 (2007) 232909.
[37] Structural and ferromagnetic properties of epitaxial SrRuO3 thin films grown by polymer-assisted deposition, H. M. Luo, M. Jain, S. A. Baily, R. F. DePaula, P. C. Dowden, L. Civale, Q. X. Jia, T. M. McCleskey, A. K. Burrell, and E. Bauer, Journal of Physical Chemistry: B, 111 (2007) 7497.
[36] Manipulating magnetoresistance near room temperature in La0.67Sr0.33MnO3/La0.67Ca0.33MnO3 films prepared by polymer assisted deposition, M. Jain, P. Shukla, Y. Li, M. F. Hundley, H. Wang, S. R. Foltyn, A. K. Burrell, T. M. McCleskey, and Q. X. Jia, Advanced Materials, 18 (2006) 2695.
[35] Effect of conductive LaNiO3 electrode on the structural and ferroelectric properties of Bi3.25La0.75Ti3O12 Films, M. Jain, B. S. Kang, and Q. X. Jia, Applied Physics Letters, 89 (2006) 242903.
[34] Magnetoresistance in polymer-assisted deposited Sr- and Ca- doped lanthanum manganite films , M. Jain, Y. Li, M. F. Hundley, M. Hawley, B. Maiorov, I. H. Campbell, L. Civale, and Q. X. Jia, P. Shukla, A. K. Burrell, and T. M. McCleskey, Applied Physics Letters, 88 (2006) 232510.
[33] Synthesis and characterization of lead strontium titanate thin films by chemical solution technique, M. Jain, N. K. Karan, R. S. Katiyar, and A. S. Bhalla, Integrated Ferroelectrics, 82 (2006) 55.
[32] Local symmetry breaking in PbxSr1-xTiO3 ceramics and composites studied by Raman spectroscopy, M. Jain, Y. I. Yuzyuk, R. S. Katiyar, Y. Somiya, and A. S. Bhalla, Journal of Applied Physics, 98 (2005) 24116.
[31] Comparative studies of ferroelectric thin films for high frequency phase shifter applications, R. S. Katiyar, M. Jain, N. K. Karan, A. S. Bhalla, F. A. Miranda, and F. W. Van Keuls, Integrated Ferroelectrics, 71 (2005) 11.
[30] Investigations on sol-gel derived highly (100) oriented Ba0.5Sr0.5TiO3:MgO composite thin films for phase shifter applications, M. Jain, S. B. Majumder, R. S. Katiyar, A. S. Bhalla, F. A. Miranda, and F. W. Van Keuls, Applied Physics A, A80 (2005) 645.
[29] Sol-gel derived textured barium strontium titanate thin films for microwave dielectric applications, M. Jain, S. B. Majumder, R. S. Katiyar, and A. S. Bhalla, Proceedings of the Electrochemical Society, P2003-29 (2005) 131.
[28] Pb0.3Sr0.7TiO3 thin film for high frequency phase shifter applications, M. Jain, N. K. Karan, R. S. Katiyar, A. S. Bhalla, F. A. Miranda, and F. W. Van Keuls, Applied Physics Letters, 85 (2004) 275.
[27] Fabrication of self-assembled nanostructures of microwave dielectrics, S. Bhattacharyya, M. Jain, N. K. Karan, and R. S. Katiyar, Ceramic Transactions, 162 (2004) 51.
[26] Investigations of PbxSr1-xTiO3 thin films and ceramics for microelectronic applications, M. Jain, Y. I. Yuzyuk, R. S. Katiyar, Y. Somiya, A. S. Bhalla, F. A. Miranda, and F. W. Van Keuls, Proceedings of the Materials Research Society Spring Meeting, 811 (2004) D3.36.1.
[25] Raman studies of PbxSr1-xTiO3 ceramics and composites, M. Jain, Y. I. Yuzyuk, R. S. Katiyar, Y. Somiya, and A. S. Bhalla, Ferroelectrics, 303 (2004) 159.
[24] Structural and electrical investigations of ferroelectric lead strontium titanate thin films and ceramics, M. Jain, P. Bhattacharya, Y. I. Yuzyuk, R. S. Katiyar, and A. S. Bhalla, Proceedings of Materials Research Society Fall meeting,784 (2004) C11.15.1.
[23] Raman spectroscopy of bulk and thin layer (Ba,Sr)TiO3 Ferroelectrics, R. S. Katiyar, M. Jain, and Y. I. Yuzyuk, Ferroelectrics, 303 (2004) 101.
[22] Structural and dielectric properties of heterostructured BST thin films by sol-gel technique, M. Jain, S. B. Majumder, R. S. Katiyar, and A. S. Bhalla, Thin Solid Films, 447-448 (2004) 537.
[21] Tailoring of BST and MgO layers for phase shifter applications, M. Jain, S. B. Majumder, R. S. Katiyar, A. S. Bhalla, F. A. Miranda, and F. W. Van Keuls, Integrated Ferroelectrics,60 (2004) 59.
[20] Dielectric properties and leakage current characteristics of sol-gel derived (Ba0.5Sr0.5)TiO3:MgTiO3 thin film composites, M. Jain, S. B. Majumder, R. S. Katiyar, A. S. Bhalla, F. A. Miranda, and F. W. Van Keuls, Ferroelectrics Letters, 30 (2003) 99.

[19] Investigations on solution derived aluminum doped zinc oxide thin films, S. B. Majumder, M. Jain, P. S. Dobal, and R. S. Katiyar, Materials Science and Engineering: B, 103, (2003) 16.

[18] Raman spectroscopy of ferroelectric thin films, R. S. Katiyar, M. Jain, A. Savvinov, and P. S. Dobal, Materials Research Society Symposium Proceedings, 748, (2003) U8.10.1.
[17] Structural and vibrational properties of ferroelectric Pb1-xSrxTiO3 thin films and powders, M. Jain, A. Savvinov, P. S. Dobal, S. B. Majumder, R. S. Katiyar, and A. S. Bhalla, Materials Research Society Symposium Proceedings, 748 (2003) U3.17.1.
[16] Phase transition behavior of highly (100) textured sol-gel derived Ba0.5Sr0.5TiO3 thin films, M. Jain, S. B. Majumder, R. S. Katiyar, and S. B. Desu, Applied Physics A, 77 (2003) 789.
[15] Improved dielectric properties of heterostructured Ba0.5Sr0.5TiO3 thin films for high frequency applications, M. Jain, S. B. Majumder, R. S. Katiyar, A. S. Bhalla, D. C. Agrawal, F. W. Van Keuls, F. A. Miranda, R. R. Romanofsky, and C. H. Mueller, Materials Research Society Symposium Proceedings, 748 (2003) U17.4.1.
[14] Novel barium strontium titanate (Ba0.5Sr0.5)TiO3:MgO thin film composites for tunable microwave devices, M. Jain, S. B. Majumder, R. S. Katiyar, and A. S. Bhalla, Materials Letters, 57 (2003) 4232.
[13] Improvement in electrical characteristics of graded manganese doped barium strontium titanate thin films, M. Jain, S. B. Majumder, R. S. Katiyar, F. A. Miranda, and F. W. Van Keuls, Applied Physics Letters, 82 (2003) 1911.
[12] Dielectric properties of sol-gel derived MgO:Ba0.5Sr0.5TiO3 thin film composites, M. Jain, S. B. Majumder, R. S. Katiyar, D. C. Agrawal, and A. S. Bhalla, Applied Physics Letters, 81 (2002) 3212.
[11] Investigations on sol-gel derived Ba0.5Sr0.5Ti1-xMnxO3 (x~0-5 at%) thin films for phase shifter applications, R. S. Katiyar, M. Jain, S. B. Majumder, R. R. Romanofsky, F. W. Van Keuls, and F. A. Miranda, Proceedings of Materials Research Society, 720 (2002) H2.1.1.
[10] Synthesis and characterization of lead strontium titanate thin films by sol-gel technique, M. Jain, S. B. Majumder, R. Guo, A. S. Bhalla, and R. S. Katiyar, Materials Letters, 56 (2002) 692.
[9] Electrical characteristics of sol-gel derived (100) oriented Ba0.5Sr0.5TiO3 thin films on LaAlO3 (100) substrates, S. B. Majumder, M. Jain, A. Martinez, R. S. Katiyar, F. A. Miranda, F. W. Van Keuls, P. K. Sahoo, and V. N. Kulkarni, Ferroelectrics, 267 (2002) 409.
[8] Evaluation of chemical solution deposited BaxSr1-xTiO3 thin films on LaAlO3 for tunable microwave devices, F. W. Van Keuls, C. H. Mueller, R. R. Romanofsky, J. D. Warner, F. A. Miranda, S. B. Majumder, M. Jain, A. Martinez, R. S. Katiyar, and H. Jiang, Integrated Ferroelectrics, 42 (2002) 207.
[7] Process induced modification of the high frequency dielectric behavior of (100) Textured BaxSr1-xTiO3 (x=0.5 and 0.6) thin films, S. B. Majumder, M. Jain, A. Martinez, R. S. Katiyar, E. R. Fachini, F. W. Van Keuls, F. A. Miranda, P. K. Sahoo, and V. N. Kulkarni, Proceedings of Materials Research Society, 688 (2002) C7.8.1.
[6] Highly textured chemical solution deposited Ba0.5Sr0.5Ti1-xMnxO3 (x~0 to 5 at %) thin films for microwave dielectric applications, M. Jain, S. B. Majumder, A. Martinez, R. S. Katiyar, F. W. Van Keuls, and F. A. Miranda, Integrated Ferroelectrics, 42 (2002) 343.
[5] Investigations on the optical properties of sol-gel derived lanthanum doped lead titanate thin films, S. B. Majumder, M. Jain, and R. S. Katiyar, Thin Solid Films, 402 (2002) 90.
[4] Sol-gel derived grain oriented BST thin films for phase shifter applications, S. B. Majumder, M. Jain, A. Martinez, F. W. Van Keuls, F.A. Miranda, and R.S. Katiyar, Journal of Applied Physics, 90 (2001) 896.
[3] Studies on the structural, microstructural and optical properties of sol-gel derived lead lanthanum titanate thin films, S. Bhaskar, S. B. Majumder, M. Jain, and R. S. Katiyar, Materials Science and Engineering (B), 87 (2001) 178.
[2] Growth and properties of Sr1-xBaxBi2TaNbO9 materials and thin films, M. S. Tomar, R. E. Melgarejo, P. S. Dobal, M. Jain, and R. S. Katiyar, Journal of Materials Science, 36 (2001) 3919.
[1] Growth, microstructure and micro-Raman studies of RF magnetron sputter deposited SrBi2Ta2O9 and SrBi2TaNbO9 films, M. Jain, S. Sathiraju, and R. S. Katiyar, Proceedings of Materials Research Society, 580 (2000) 345.