Rich Eitel

 

Journal Articles:

  1. W. Zhang*, and R.E. Eitel#, "Low Temperature Sintering and Properties of 0.98PZT-0.02SKN Ceramics with LiBiO2 and CuO Addition," Journal of the American Ceramic Society, online, (2011).  [Abstract]
  2. S. O. Leontsev*#, and R.E. Eitel, “Origin and Magnitude of the Large Piezoelectric Response in the Lead-free (1-x)BiFeO3-xBaTiO3 Solid Solution,” Journal of Materials Research, 26[1], pp9-17, (2011). [Abstract]
  3. W. Zhang*, and R. E. Eitel#, “Biostability of LTCC Materials for Microfluidic and Biomedical Devices,”International Journal of Applied Ceramic Technology, 8[2], 02581, (2011). [Abstract]
  4. Topical Review: S. O. Leontsev*, and R.E. Eitel#, “Progress in engineering high strain lead-free piezoelectric ceramics,” Science and Technology of Advanced Materials, 11[4], 044302, (2010). [Abstract]
  5. S.W. Gotmare*, S. O. Leontsev*#, and R.E. Eitel, “Thermal degradation and aging of high temperature piezoelectric ceramics” Journal of the American Ceramic Society, 93[7] pp1965-9, 2010. [Abstract]
  6. S. O. Leontsev*, and R. E. Eitel, “Dielectric and Piezoelectric properties in Mn-Modified (1-x)BiFeO3-xBaTiO3 Ceramics,” Journal of the American Ceramic Society, 92[12], pp2957-61, (2009). [Abstract]
  7. Seung-Ho Park, Amanda Baker, Richard E. Eitel, Clive A. Randall, and Kenji Uchino#, “Active optical fiber alignment with a piezoelectric ultrasonic motor integrated into Low Temperature Cofired Ceramics (LTCC)” Journal of Intelligent Material Systems and Structures, 21[4], pp569-79, 2010. [Abstract]
  8. N. S. Satarkar, W. Zhang,* R. E. Eitel, J. Z. Hilt#, “Magnetic Hydrogel Nanocomposites as Remote Controlled Microfluidic Valves,” Lab on a Chip, 9[12], pp2957-61, (2009). [Abstract]
  9. S. H. Park, J. Agraz, S. Tuncdemir, R. E. Eitel, A. L. Baker, C. A. Randall1, K. Uchino, “Delta-shape Piezoelectric Ultrasonic Motor for 2-dimensional Positioning,” Japanese Journal of Applied Physics, 47[1], p313-318, (2008). [Abstract]
  10. R. E. Eitel, C. A. Randall, “Octahedral Tilt-Suppression of Ferroelectric Domain Wall Dynamics and the Associated Piezoelectric Activity in Pb(Zr,Ti)O3," Physical Review B, 75[9], 094106 (2007). [Abstract]
  11. R. E. Eitel, T. R. Shrout & C. A. Randall, “Nonlinear Contributions to the Dielectric Permittivity and Converse Piezoelectric Coefficient in Piezoelectric Ceramics” Journal of Applied Physics, 99, 124110 (2006). [Abstract]
  12. S. J. Zhang, R. E. Eitel, C. A. Randall, T. R. Shrout, “BiScO3-PbTiO3 Piezoelectric Ceramic for Shear Mode High Temperature Sensor Application,” Applied Physics Letters, 86, 262904, (2005). [Abstract]
  13. S. J. Zhang, E. Alberta, R. E. Eitel, C. A. Randall, T. R. Shrout, “Elastic, Piezoelectric and Dielectric Characterization of Modified BiScO3-PbTiO3 Ceramic,” IEEE Transactions of on Ultrasonics, Ferroelectrics, and Frequency Control, (2005). [Abstract]
  14. C. A. Randall, R. E. Eitel, T. R. Shrout & A. Kelnberger, "High Strain Piezoelectric Multilayer Actuators - A Materials Science and Engineering Challenge," Journal of Electroceramics, 14[3] 177-91 (2005). [Abstract]
  15. C. J. Stringer, R. E. Eitel, T. R. Shrout, C. A. Randall, I. M. Reaney, “Phase Transition and Chemical Order in the Ferroelectric Perovskite (1-x)Bi(Mg3/4W1/4)O3-xPbTiO3 Solid Solution System,” Journal of Applied Physics, 97[2] 024101 (2005). [Abstract]
  16. R. E. Eitel, S. J. Zhang, T. R. Shrout, C. A. Randall & I. Levin, "Phase Diagram of the Perovskite System (1-x)BiScO3-xPbTiO3," Journal of Applied Physics, 96[5], pp2828-31 (2004). [Abstract]
  17. R. E. Eitel, T. R. Shrout & C. A. Randall, "Tailoring Properties and Performance of (1-x)BiScO3-xPbTiO3 Based Piezoceramics by Lanthanum Substitution," Japanese Journal of Applied Physics, 43[12], pp8146-50, (2004). [Abstract]
  18. T.-H. Song, R. E. Eitel, T. R. Shrout & C. A. Randall, "Dielectric and Piezoelectric Properties in the BiScO3-PbTiO3-PbO*SnO2 Ternary System," Japanese Journal of Applied Physics, 43[8A], pp5392-7, (2004). [Abstract]
  19. C. A. Randall, R. E. Eitel, B. Jones, T. R. Shrout, D. I. Woodward & I. M. Reaney, "Investigation of a High TC Piezoelectric System: (1-x)Bi(Mg1/2Ti1/2)O3-xPbTiO3," Journal of Applied Physics, 95[7], pp3633-9, (2004). [Abstract]
  20. D. I. Woodward, I. M. Reaney, R. E. Eitel & C. A. Randall, "Crystal and Domain Structure of the BiFeO3-PbTiO3 Solid Solution," Journal of Applied Physics, 94 [5], pp3313-8, (2003). [Abstract]
  21. T.-H. Song, R. E. Eitel, T. R. Shrout, C. A. Randall & W. Hackenberger, "Piezoelectric Properties in the Perovskite BiScO3-PbTiO3-(Ba,Sr)TiO3 Ternary System," Japanese Journal of Applied Physics, 42, pp5181-4, (2003). [Abstract]
  22. C. A. Randall, R. E. Eitel, T. R. Shrout, D. I. Woodward & I. M. Reaney, "Transmission Electron Microscopy Investigation of the High Temperature BiScO3-PbTiO3 Piezoelectric Ceramic System," Journal of Applied Physics, 93[11], pp9271-4, (2003). [Abstract]
  23. V. Porokhonskyy, S. Kamba, A. Pashkin, M. Savinov, J. Petzelt, R. E. Eitel & C. A. Randall, "Broadband Dielectric Spectroscopy of (1-x)BiScO3-xPbTiO3 Piezoelectrics.," Applied Physics Letters, 83[8], pp1605-7, (2003). [Abstract]
  24. J. Cheng, R. E. Eitel, N. Li & L. E. Cross, "Structural and Electrical Properties of (1-x)Bi(Ga1/4Sc3/4)O3-xPbTiO3 Piezoelectric Ceramics," Journal of Applied Physics, 94[1], pp605-9, (2003). [Abstract]
  25. J. Cheng, R. E. Eitel & L. E. Cross, "Lanthanum-Modified (1-x)(Bi0.8La0.2)(Ga0.05Fe0.95)O3-xPbTiO3 Crystalline Solutions: Novel Morphotropic Phase-Boundary Lead-Reduced Piezoelectrics.," Journal of the American Ceramic Society, 86[12], pp2111-5, (2003). [Abstract]
  26. S. J. Zhang, L. Lebrun, S. Rhee, R. E. Eitel, C. A. Randall & T. R. Shrout, "Crystal Growth and Characterization of New High Curie Temperature (1-x)BiScO3-xPbTiO3 Single Crystals," Journal of Crystal Growth, 236[1-3], pp210-6, (2002). [Abstract]
  27. R. E. Eitel, C. A. Randall, T. R. Shrout & S.-E. Park, "Preparation and Characterization of High Temperature Perovskite Ferroelectrics in the Solid-Solution (1-x)BiScO3-xPbTiO3," Japanese Journal of Applied Physics, 41[4A], pp2099-104, (2002). [Abstract]
  28. R. E. Eitel, C. A. Randall, T. R. Shrout, P. W. Rehrig, W. Hackenberger & S.-E. Park, "New High Temperature Morphotropic Phase Boundary Piezoelectrics Based on Bi(Me)O3-PbTiO3 Ceramics," Japanese Journal of Applied Physics, 40[10], pp5999-6002, (2001). [Abstract]

Book Chapters:

  1. C. A. Randall, R. E. Eitel, C. Stringer, T. H. Song, S. J. Zhang & T. R. Shrout, "High Performance, High Temperature Perovskite Piezoelectric Ceramics"; in Piezoelectric Single Crystals, Edited and Published by S. Trolier-McKinstry, University Park, PA (2004).
  2. T. R. Shrout, R. E. Eitel & C. A. Randall, "High Performance, High Temperature Perovskite Piezoelectric Ceramics"; in Piezoelectric Materials in Devices, Edited by N. Setter, EPFL Swiss Federal Institute of Technology, Lausanne, Switzerland, (2002).

Patents:

  1. S.O. Leontsev,* and R.E. Eitel, Lead Free Piezoelectric Ceramic Materials with High Piezoelectric Strain Coefficient and High Depolarization Temperature. Provisional Patent Filed.
  2. P.B. Howell, and R.E. Eitel, Rotationally Actuated Magnetic Bead Trap and Mixer, Provisional Patent Filed.
  3. J.Z. Hilt, N. Satarkar, W. Zhang,* R. Eitel.  Methods for Preparation and Application of Nanocomposites in Microfluidic Devices.  Provisional Patent filed.
  4. US Patent, 7,501,743 B2: “Piezoelectric Ultrasonic Motor for 2-Dimensional Positioning,” K. Uchino, C.A. Randall, J. Agraz, R.E. Eitel, and S.H. Park, (Mar 10, 2009).
  5. R. E. Eitel, S.-E. Park, C. A. Randall & T. R. Shrout, "Perovskite Materials for High Temperature and High Performance Actuators and Transducers," United States Patent No. 6,685,849 (February 3 2004). (Licensed by Endevco Corp.)

 

Eitel Laboratory for
Smart Ceramic Materials and Devices

Contact:
Richard E. Eitel, Assistant Professor
Department of Chemical and Materials Engineering
Office: 151 F. Paul Anderson Tower
Mailing: 177 F. Paul Anderson Tower
Lexington, KY 40506
Email: reitel@engr.uky.edu

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