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Functional Materials: Electronics and Sensors

Journals 

  1. Thermoelectric properties of in-situ plasma spray synthesized sub-stoichiometry TiO2-x, H. Lee, S.J. Han, RC Seshadri,, and S. Sampath, J. Sci. Rep., (2016) Article in press.
  2. S.J.Han, Z.Pala and Sanjay Sampath, Plasma sprayed manganese-cobalt spinel coatings: process sensitivity on phase, electrical and protective performance, 304 (2016) 234-243.
  3. Mahder Tewolde, Gaosheng Fu, David J. Hwang, Lei Zuo, Sanjay Sampath, Jon P. Longtin, Thermoelectric Device Fabrication Using Thermal Spray and Laser Micromachining (2016), Journal of Thermal Spray Technology, Volume 25, Issue 3, pp 431–440.
  4. Jiri Kotlan, Ramachandran Chidambaram Seshadri, Sanjay Sampath, Pavel Ctibor , The role of amorphous phase content on the electrical properties of atmospheric plasma sprayed (Ba,Sr)TiO3 coatings (2016), Ceramics International, Volume 42, Issue 9, Pages 11010–11014.
  5. Jiri Kotlan, Ramachandran Chidambaram Seshadri, Sanjay Sampath, Pavel Ctibora, Zdenek Pala, Radek Musalek, On the dielectric strengths of atmospheric plasma sprayed Al2O3, Y2O3, ZrO2–7% Y2O3 and (Ba,Sr)TiO3 coatings, (2015), Ceramics International, Volume 41, Issue 9, Part A, Pages 11169–11176.
  6. Girish Ramakrishnan, Gopal Dwivedi, Sanjay Sampath, Alexander Orlov, Development and optimization of thermal sprayed ceramic microfiltration membranes (2015), Journal of Membrane Science, Volume 489, Pages 106–111
  7. Han, S. J., Chen, Y., & Sampath, S. Role of process conditions on the microstructure, stoichiometry and functional performance of atmospheric plasma sprayed La (Sr) MnO 3 coatings (2014), Journal of Power Sources, 259, 245-254.
  8. Fu, G., Zuo, L., Longtin, J., Nie, C., Chen, Y., Tewolde, M., & Sampath, S. Thermoelectric Properties of Magnesium Silicide Deposited by Use of an Atmospheric Plasma Thermal Spray (2014). Journal of Electronic Materials, 43(7), 2723-2730.
  9. Longtin, J. P., Zuo, L., Hwang, D., Fu, G., Tewolde, M., Chen, Y., & Sampath, S. Fabrication of Thermoelectric Devices Using Thermal Spray: Application to Vehicle Exhaust Systems (2013), Journal of thermal spray technology,22(5), 577-587.
  10. S.Sampath, Opportunities for thermal spray in functional materials, electronics and sensors, Adv.Materials and Processes, 171(11) 2013. 69-70.
  11. Gambino, R. J., Liang, S., Shinoda, K., Colmenares-Angulo, J., & Sampath, S. Transition From GMR to AMR at the Percolation Threshold in Ferrite-Magnetic Alloy Composites (2012), Magnetics, IEEE Transactions on, 48(11), 2765-2768.
  12. Using Thermal Spray and Laser Micromachining to Fabricate Sensors. Longtin, J. P., Mari, E., Tan, Y., & Sampath, S. (2011). Journal of thermal spray technology, 20(4), 958-966.
  13. Shinoda, K., Liang, S., Sampath, S., & Gambino, R. J. Processing effects on in-flight particle state and functional coating properties of plasma-sprayed manganese zinc ferrite (2011), Materials Science and Engineering: B, 176(1), 22-31.
  14. A.Sharma, A.Gouldstone, S.Sampath and R.J.Gambino, “Anisotropic electrical conduction from heterogeneous oxidation states in plasma sprayed TiO2 coatings”, J.Applied Physics 100 (2006) 114906
  15. S.Y.Tan, R.J.Gambino, S.Sampath and H.Herman, “Electrical properties of pressure quenched silicon by thermal spraying”, Thin Solid Films, 515 (2007) 7744-7750A. Sharma, R.J. Gambino, S. Sampath, "Anisotropic Electrical Properties in Thermal Spray Metallic Coatings", Acta. Mater., 54, (2006) pp.59-65.
  16. A. Sharma, R.J. Gambino, S. Sampath, "Anisotropic Electrical Properties in Thermal Spray Metallic Coatings", Acta. Mater., 54, (2006) pp.59-65.
  17. B.D. Kharas, S. Sampath, R. J. Gambino, “Anisotropic resistivity in plasma-sprayed silicon thick films”, J. Applied Physics, 97 (2005) Article no. 094906.
  18. S. Liang, R. J. Gambino, S. Sampath, and M. M. Raja, The magnetic properties of plasma-sprayed thick-film manganese zinc ferrite (MZF) and nickel iron alloy (Permalloy) composites, J. Appl. Phys. 99, 08M915 (2006).
  19. K. Ahn, B. Wessels and S. Sampath, “Spinel humidity sensors prepared by thermal spray direct writing”, Sensors and Actuators (B), 107 (2005), pp. 342-346.
  20. T.A. Schaedler , A.S. Gandhi , M. Saito, M. Ruhle, R. Gambino, C.G.Levi, “Extended solubility of CoO in ZnO and effects on magnetic properties,” Journal of materials research, 21 (3) (2006), pp.791-801.
  21. Q. Y. Yan, R. J. Gambino,and S. Sampath, “Magnetostriction and surface stress measurement of plasma sprayed MnZn ferrites”, J. Applied Physics, 97 (2005).
  22. Q. Y. Yan, R. J. Gambino,and S. Sampath, “Magnetostriction and stress measurements in plasma sprayed MnZn ferrite films”, J. Applied Physics, 97, 1 (2005).
  23. Q. Chen, J. P. Longtin, S. Tankiewicz, S. Sampath and R. J. Gambino, “Ultrafast laser micromachining and patterning of thermal spray multilayers for thermopile fabrication”, Journal of Micromechanics and Microengineering, 14 (2004), pp. 506-513.
  24. R. Gambino, M. M. Raja, S. Sampath, and R. Greenlaw, “Plasma sprayed thick film anisotropic magneto-resistive (amr) sensors”, IEEE Sensors, 4(2004), pp.764-768.
  25. J. Longtin, S. Sampath, S. Tankiewicz, R. J. Gambino and R. J. Greenlaw, “Sensors for harsh environments by direct-write thermal spray”, IEEE Sensors Journal, 4 (2004), pp. 118-121.
  26. Q. Y. Yan, R. J. Gambino, S. Sampath, L. H. Lewis and E. Baumberger, “Exchange Bias in Plasma-sprayed MnZn Ferrites”, IEEE Transactions on Magnetics, 40 (2004), pp. 2787-2789.
  27. Q. Y. Yan, R. J. Gambino, S. Sampath, L. H. Lewis, L. Li, E. Baumberger, A. Vaidya and H. B. Xiong, “Effects of Zinc Loss on the Magnetic Properties of Plasma-sprayed MnZn Ferrite”, Acta Materialia, 52 (2004), pp. 3347-3353.
  28. Q. Y. Yan, R. J. Gambino and S. Sampath, “Plasma-sprayed MnZn Ferrites with Insulated Fine Grains and Increased Resistivity for High Frequency Application”, IEEE Transactions on Magnetics, 40 (2004), pp. 3346-3351.
  29. T. Tong, L. Li, Q. Chen, J. Longtin, S. Tankiewicz and S. Sampath, “Ultrafast laser micromachining of thermal sprayed coatings for microheaters: design, fabrication and characterization”, Sensors and Actuators A, 114 (2004), pp. 102-111.
  30. K. Ahn, B. W. Wessels and S. Sampath, “Dielectric properties of plasma-sprayed BaTiO3 and Ba0.68Sr0.32TiO3 thick films”, J. Materials Research, 18 (2003), pp. 1227-1231.
  31. Q. Y. Yan, R. J. Gambino and S. Sampath, “Low-temperature annealing effect on plasma sprayed MnZn ferrite for planar transformers of high-frequency applications”, IEEE Transactions on Magnetics, 39 (2003), pp. 3106-3108.

Proceedings

  1. S.Liang, B.G.Ravi, S.Sampath and R.Gambino, Atmospheric plasma sprayed cobalt ferrite coatings for magnetostrictive sensor apps, 10th joint Magnetism & Magnetic Materials/Intermag Conf., DH-13, 2006.
  2. S.Sampath, “Novel concepts in Direct Writing of Electronics and Sensors”, Digital Fabrication 2005, Society for Imaging Science and Technology, (2005) 21-24.
  3. A. Sharma, R.J. Gambino, S. Sampath, "Electrical Conduction in Thermally Sprayed Thin Metallic Coatings" in Surface Engineering for Manufacturing Applications, edited by W.J. Meng, R. Maboudian, S.C. Chen, S.J. Bull, P.R. Chalker, Mat. Res. Symp. Proc. 890, Y9.11 (2005).
  4. S. Liang, B. G. Ravi, S. Sampath, R. J. Gambino, Microstructure and Electrical Characteristics of Plasma Sprayed Thick Film Mn-Co-Ni Oxide Thermistor, Mat. Res. Symp. Proc. 900E, 0900-O06-41
  5. R. Gambino, M. Manivel Raja, S. Sampath, and R. Greenlaw, “Plasma sprayed thick film anisotropic magnetoresistive (AMR) sensors”, Proceedings of IEEE symposium on sensors, Orlando, Florida, 2002, pp. 656 – 659
  6. J. Longtin, S. Sampath, R. Gambino, S. Tankiewicz and R.Greenlaw, “Sensors for harsh environment by direct write thermal spray”, Proceedings of IEEE symposium on sensors, Orlando, Florida, 2002, pp. 598 – 601.
  7. E. Rajamaki, T. Varis, A. Vaidya, A. Kulkarni, M. Karadge, J. Gutleber, S. Sampath and H. Herman, “Parameter optimization of HVOF sprayed alumina and effect of the spray parameters on the electrical properties of the coatings”, in E. Lugscheider, ed., Int. Thermal Spray Conf. (ITSC 2002), ASM International, Essen, Germany, 2002, p622
  8. K. Ahn, B. W. Wessels, R. Greenlaw and S. Sampath, “Dielectric properties of spray deposited BaTiO3 and Ba0.68Sr0.32TiO3, Materials Research Society Proceedings: Electroactive Polymers and Rapid Prototyping”, Eds. Chrisey D. B., Danforth S. C., Direct Write Electronics, 2001.
  9. J. Sun, C. H. Fan and J. P. Longtin, “Laser Processing of Thermal Spray Patterns using Femtosecond Pulses”, 35th National Heat Transfer Conference, NHTC01-1823, Anaheim, California, 2001, Electronic copy.
  10. A. H. Dent, A. S. Patel, J. Gutleber, S. Sampath, H. Herman and E. Tormey, “Structure-Dielectric Behavior Relationships in HVOF Sprayed BaTiO3”, in C. C. Berndt, ed., Thermal Spray: Surface Engineering via Applied Research (ITSC 2000), ASM International, Materials Park, OH, USA, Montreal, Quebec, Canada, 2000, p495.
  11. S. Sampath, A. Patel, A. H. Dent, R. Gambino, H. Herman, R. Greenlaw, and E. Tormey, “Thermal Spray Techniques for Fabrication of Meso-Electronics and Sensors”, Materials for Direct Write Electronics, Materials Research Society, 2000, p181.
  12. S. Y. Tan, R. J. Gambino, R. Goswami, S. Sampath and H. Herman, “Electrical Characteristics of Thermal Sprayed Silicon Coatings”, Materials for Direct Write Electronics, Materials Research Society, 2000, p189.
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