Multifunctional Materials Lab - publication

Multifunctional Materials Laboratory

Publications

2006 2005 2004 2003 2002 2001 2000 Pre-2000

2006

  1. Li, L. J and Li, J. Y., “ Electromagnetic Fields in a Uniaxial Multiferroic Material Induced by a Point Source or an Ellipsoidal Inclusion ,” Physical Review B. 73, article number 184416.
  2. Liu, J. J., Zhou, Y. C., Soh, A. K., and Li, J. Y., “ Engineering Domain Configurations for Enhanced Piezoelectricity in Barium Titanate Single Crystals ,” Applied Physics Letters 88, article number 032904.
  3. Du, Q. G, Li, J. Y., Nothwang, W. and Cole, M. W., “ The Dielectric Behavior of Ferroelectric Polycrystalline Films with Fiber Texture, ,” Acta Materialia 54, 2577-2587.
  4. Srinivas, S., Li, J. Y., Soh, A. K., and Zhou, Y. C., “ The Effective Magnetoelectroelastic Moduli of Matrix-based Multiferroic Composites ,” Journal of Applied Physics 99, article number 043905

2005

  1. Li, J. Y., Rogan, R. C., Ustundag, E., and Bhattacharya, K., “ Domain Switching in Polycrystalline Ferroelectric Ceramics ,” Nature Materials 4, 776-781.
  2. Li, J.Y., Luo, Y., Bai, M.J., Ducharme, S., “ Nanomesa and Nanowell Formation in Langmuir Boldgett Polyvinylidene Fluoride Trifluoroethelyne Copolymer Films ,” Applied Physics Letters 87, article number 213116.
  3. Huang, C., Zhang, Q. M., Li, J. Y., and Rabeony, M., “ Colossal Dielectric and Electromechanical Responses in Self-Assembled Polymeric Nanocomposites ,” Applied Physics Letters 87, article number 182901.
  4. Zhou, Y. C., Liu, J., and Li, J. Y., “ Effective Electromechanical Moduli of Ferroelectric Ceramics with Fiber Textures ,” Applied Physics Letters 86, article number 262909.
  5. Srinivas, S. and Li, J. Y., “ The Effective Magnetoelectric Coefficients of Polycrystalline Multiferroic Composites ,” Acta Materialia 53, 4135-4142.
  6. Qu, H.L. and Li, J.Y., “ An Effective Medium Theory on Magnetization Reversal in Magnetically Interacting Particles ,” IEEE Transaction on Magnetics 41, 1093-1099.

2004

  1. Li, J.Y. and Liu, D., “ On Ferroelectric Crystals with Engineered Domain Configurations ,” Journal of the Mechanics and Physics of Solids 52, 1719-1742.
  2. Li, J.Y and Rao, N., “ Micromechanics of Ferroelectric Polymer Based Electrostrictive Composites ,” Journal of the Mechanics and Physics of Solids 52, 591-615.
  3. Zheng, X.J., Li, J.Y., and Zhou, Y.C., “ Acta Materialia ,” Acta Materialia 52, 3311-3322.
  4. Liu, D. and Li, J.Y., “ Domain Engineered Pb(Mg1/3Nb2/3O3)-PbTiO3 Crystals: Enhanced Piezoelectricity and Optimal Domain Configurations ,” Applied Physics Letters 84, 3930-3932.
  5. Li, J.Y., Huang, C., and Zhang, Q.M., “ Enhanced Electromechanical Properties in All-Polymer Percolative Composites ,” Applied Physics Letters 84, 3124-3126.
  6. Li. J.Y., “ The Effective Pyroelectric and Thermal Expansion Coefficients of Ferroelectric Ceramics ,” Mechanics of Materials 36, 949-958.
  7. Rao, N. and Li, J.Y., “ The Effective Electrostriction of P(VDF-TrFE) Copolymers Embedded with Textured Dielectric Particles ,” International Journal of Solids and Structures , 41, 2995-3011.

2003

  1. Li, J.Y., “ Exchange Coupling in P(VDF-TrFE) Copolymer Based All-Organic Composites with Giant Electrostriction ,” Physical Review Letters 90, articles number 217601.
  2. Qu, H.L and Li, J.Y., “ The Remanence Enhancement in Magnetically Interacting Particles ,” Physical Review B 68, article number 212402.
  3. Liu, D. and Li. J. Y., “ The Enhanced and Optimal Piezoelectric Coefficients in Single Crystalline Barium Titanate with Engineered Domain Configurations ,” Applied Phys. Letters 83, 1193-1195.
  4. Zheng, X.J., Zhou Y.C., and Li, J.Y., “ Nano-Indentation Fracture Test of Pb(Zr0.52Ti0.48)O3 Ferroelectric Thin Films ,” Acta Materialia 51, 3985-3997.
  5. Li, J.Y., “ Uniqueness Theorem and Reciprocity Theorem for the Linear Thermo-Electro-Magneto-Elasticity ,” The Quarterly Journal of Mechanics and Applied Mathematics 56, 35-43.

2002

  1. Li, J.Y, “ International Journal of Solids and Structures ,” International Journal of Solids and Structures 39, 4201-4213
  2. Li, J.Y. and N. Rao, “ Dramatically-Enhanced Effective Electrostriction in Ferroelectric Polymeric Composites ,” Applied Physics Letters 81, 1860-1862.

2001

  1. Li, J.Y. and Dunn, M.L., “ Variational Bounds for the Effective Moduli of Heterogeneous Piezoelectric Solids ,” Philosophical Magazine A 81, 903-926.
  2. Li, J.Y. and Dunn, M.L., “ Viscoelectroelastic Behavior of Heterogeneous Piezoelectric Solids ,” Journal of Applied Physics 89, 2893-2903.

2000

  1. Li, J.Y., “ The Effective Electroelastic Moduli of Textured Piezoelectric Polycrystalline Aggregates ,” Journal of the Mechanics and Physics of Solids 48, 529-552.
  2. Li, J.Y., “ Magnetoelectroelastic Multi-Inclusion and Inhomogeneity Problems and Their Applications in Composite Materials ,” International J. of Engineering Science 37, 5579-5597.
  3. Li, J.Y., “ Micromechanical Analysis of Ionic Clustering in NafionPerfluorinated Membrane ,” Mechanics of Materials 38, 1993-2011.
  4. Li, J.Y. and Nemat-Nasser, S., “ Electromechanical Response of Ionic Polymer Metal Composite ,” Journal of Applied Physics 32, 303-314.
  5. Nemat-Nasser, S. and Li, J.Y., “ Electromechanical Response of Ionic Polymer Metal Composite ,” Journal of Applied Physics 87, 3321-3331.

1999

  1. Li, J.Y., Dunn, M.L., and Ledbetter, H., “ Thermoelectroelastic Moduli of Textured Piezoelectric Polycrystals: Exact Solutions and Bounds for Film Textures ,” J. Applied Physics 86, 4626-4634.
  2. Li, J.Y., “ On Micromechanics Approximation for the Effective Thermoelastic Moduli of Multi-Phase Composite Materials ,” Mechanics of Materials 31, 149-159.
  3. Li, J.Y. and Dunn, M.L., “ Analysis of Microstructural Fields in Heterogeneous Piezoelectric Solids ,” International Journal of Engineering Science 37, 665-685.

1998

  1. Li, J.Y. and Dunn, M.L., “ Anisotropic Coupled-Field Inclusion and Inhomogeneity Problems ,” Philosophical Magazine A 37, 665-685.
  2. Li, J.Y. and Dunn, M.L., “ Micromechanics of Magnetoelectroelastic Composites: Average Fields and Effective Behavior ,” Journal of Intelligent Material Systems and Structures 9, 404-416.

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