Publications

Kok, D., Jha, S., Raj, R., Mecartney, M.L., “Flash Sintering of a three-phase alumina, spinel, and yttria-stabilized zirconia composite,” J. Am. Ceram. Soc., 100 [7] 3262-3268 (2017) (Link)

Austin Travis, Andrew T. Nelson, Martha L. Mecartney, “Computational Studies of Thermal Conductivity of Multiphase Ceramics for Inert Matrix Fuel,” Transactions of the American Nuclear Society, vol.115, pp.110-111 (2016)

Kenta Ohtaki, Maulik Patel and Martha Mecartney, "Radiation Damage in Multiphase Ceramics" Transactions of the American Nuclear Society, Vol. 115, 2016 (Link)

Kenta K. Ohtaki, Peter E. D. Morgan, Martha L. Mecartney “Extended solid solubility of Sr in LaPO4 monazite”, Solid State Ionics, 293 (2016) 44-50 (Link)
M. Shirooyeh, R.P. Dillon, S. S. Sosa, P.H. Imamura, M.L. Mecartney, and T.G. Langdon, “Superplasticity and Superplastic-Like Flow in Cubic Zirconia with Silica,” J. Mater. Sci. 50 [10] 3716-3726 (2015) (Link)

J.P. Angle, A.T. Nelson, D. Men, and M.L. Mecartney, “Thermal Measurements and Computational Simulations of Three-Phase (CeO2 - MgAl2O4 - CeMgAl11O19) and Four-Phase (3Y-TZP - Al2O3 - MgAl2O4 - LaPO4) Composites as Surrogate Inert Matrix Nuclear Fuel,” J. Nucl. Mater. 454 [1-3] 69-76 (2014) (Link)

J. P. Angle, J.J. Steppan, P. M. Thompson, and M.L. Mecartney, “Parameters Influencing Thermal Shock Resistance and Ionic Conductivity of 8 mol% Yttria-stabilized Zirconia (8YSZ) with Dispersed Second Phases of Alumina or Mullite,” Journal of the European Ceramic Society 34 [16] 4327-4336 (2014) (Link)

M. Malki, C.M. Hoo, M.L.Mecartney and H. Schneider, “Electrical Conductivity of Mullite Ceramics,” Journal of the American Ceramic Society 97 [6] 1923-30 (2014) (Link)

D. Men, M.K. Patel, I.O. Usov, J C. Pivin, J.R. Porter and M.L. Mecartney, "Radiation Damage of LaMgAl₁₁O₁₉ and CeMgAl₁₁O₁₉ Magnetoplumbite," J. Am. Ceram. Soc., 96 [10] 3325–3332 (2013) (Link)
J.P. Angle, Z. Wang, C. Dames and M.L. Mecartney, "Comparison of Two-Phase Thermal Conductivity Models with Experiments on Dilute Ceramic Composites," J. Am. Ceram. Soc., 96 [9] 2935–2942 (2013) (Link)

L. R. Moodie, J. P. Angle, E.C. Tackett, T.J. Rupert, M. L. Mecartney, L. Valdevit, “Ceramic and hybrid micro-architected materials for high temperature applications,” Proceedings of the 2013 Society for the Advancement of Material and Process Engineering (SAMPE) Conference, Long Beach CA (2013).

D. Men, M.K. Patel, I.O. Usov, M. Toiammou, I. Monnet, J.C. Pivin, J.R. Porter and M.L. Mecartney, "Radiation Damage in Multiphase Ceramics," J. Nucl. Mater., 443[1–3] 120-27 (2013) (Link)
J. Kim, C. Y. Lin, W. Xing, M. L. Mecartney, E. O. Potma, and R. M. Penner, "Laser Annealing of Nanocrystalline Gold Nanowires," Acs. Appl. Mater. Inter., 5[15] 6808-14 (2013) (Link)
D. Men and M.L. Mecartney, "Superplasticity and machinability in a four-phase ceramic," Mater. Res. Bull., 47 [8] 1925-1931 (2012) (Link)

C.M. Hoo, D. Men, L. Teharabadi, and M.L. Mecartney, "Grain-Boundary Sliding in a Superplastic Three-Phase Alumina-Zirconia-Mullite Ceramic Composite," J. Am. Ceram. Soc., 94 [7] 2171–2180 (2011) (Link)

C.M. Hoo, T. Doan, N. Starostin, P.E. West, and M.L. Mecartney, "Optimal sample preparation for nanoparticle metrology (statistical size measurements) using atomic force microscopy," J. Nanopart. Res., 12 [3] 939-949 (2010) (Link)

M.T. Schatzmann, M.L. Mecartney, and P.E.D. Morgan, "Synthesis of monoclinic monazite, LaPO(4), by direct precipitation," Journal of Materials Chemistry,19 [32] 5720-5722 (2009) (Link)

L. Ramirez, M. L. Mecartney, S. P. Krumdeick, “Nano-crystalline ZrO2 Thin Films on Silicon Fabricated by Pulsed-Pressure Metal Organic Chemical Vapor Deposition (PPMOCVD),” J. of Mat. Res., 23 [8] 2202-2211 (2008) (Link)

N. Starostin, M. Brodsky, S. Prikhodko, C.M. Hoo, M.L. Mecartney and P.E. West, "AFM capabilities in characterization of particles and surfaces: From angstroms to microns," Journal of Cosmetic Science, 59 [3] 225-232 (2008) (Link)

T. Chen, S.Tekeli, R.P. Dillon, and M. L.Mecartney, "Phase stability, microstructural evolution and room temperature mechanical properties of TiO2 doped 8 mol% Y2O3 stabilized ZrO2 (8Y-CSZ)," Ceram. Int., 34 [2] 365-370 (2008) (Link)

R.P. Dillon, D.K. Kim, J.E. Trujillo, W. M. Kriven, and M.L. Mecartney, "Creep Characteristics of Alumina, Nickel Alumina spinel, Zirconia Composites," J. of Mat. Res., 23 [2] 556-564 (2008) (Link)

Lili Taherabadi, Joy E. Trujillo, Tiandan Chen, John R. Porter, and Martha L. Mecartney, "Observation of Dislocation Assisted High Temperature Deformation in Mullite and Mullite Composites," J. Eur. Ceram. Soc., 28 [2] 371-376 (2008) (Link)

C.M. Hoo, N. Starostin, P. West, and M.L. Mecartney, "A comparison of atomic force microscopy (AFM) and dynamic light scattering (DLS) methods to characterize nanoparticle size distributions," J. Nanopart. Res., 10 89-96 (2008) (Link)

R.P. Dillon and M.L. Mecartney, "Dynamic formation of zircon during high temperature deformation of zironia-silica composites with alumina additions," J. Mat. Sci., 42 [10] 3537-3543 (2007) (Link)

C. Wong, P.E. West, K.S. Olson, M.L. Mecartney, N. Starostina, "Tip dilation and AFM capabilities in the characterization of nanoparticles," Journal of Metals (JOM), 59 [1] 12-16 (2007) (Link)

S.Tekeli, T. Chen, H.Nagayama, T. Sakuma and M. L.Mecartney, "High-temperature deformation behaviour of TiO2-doped 8 mol.% Y2O3-stabilized ZrO2 (8Y-CSZ) under tension and compression", Ceram. Int., 33 [5] 869-874 (2007) (Link)

T. Chen, F.A. Mohamed, M.L. Mecartney, "Threshold behavior and dislocation accommodated superplastic deformation in an alumina-zirconia-mullite ceramic composite," Acta Mat., 54 [17] 4415-4426 (2006) (Link)

T. Chen and M.L. Mecartney, "Superplastic compression, microstructural analysis and mechanical properties of a fine grain three-phase alumina–zirconia–mullite ceramic composite" J. Mater. Sci. .Eng. A. 410 134-139 (2005) (Link)

T. Chen and M.L Mecartney, “A High-Strain-Rate Alumina-based Ceramic Composite," J. Am. Ceram. Soc., 88 [4] 1004-1006 (2005) (Link)

T. Chen and M.L. Mecartney, “Comparison of the High Temperature Deformation of Alumina-Zirconia and Alumina-Zirconia-Mullite Composites,”J. of Mat. Res.,20 [1] 13-17 (2005) (Link)

R.P. Dillon, SS Sosa, and M.L. Mecartney. “Achieving tensile superplasticity in 8 mol%Y2O3 cubic stabilized ZrO2 through the addition of intergranular silica.” Scripta Materialia, 50 [12] 1441-4 (2004) (Link)
A.A. Sharif and M.L. Mecartney “Superplasticity in cubic yttria stabilized zirconia with 10 wt.% alumina,” J. Eur. Ceram. Soc., 24 [7] 2041-2047 (2004) (Link)
M.C. Martin and M.L. Mecartney. “Grain Boundary Ionic Conductivity of Yttria Stabilized Zirconia as a Function of Silica Content and Grain Size,” Solid State Ionics, 161 [1-2] 67-79 (2003) (Link)
A.A. Sharif and M.L. Mecartney. “Superplasticity in Cubic Yttria-Sabilized Zirconia with Intergranular Silica,” Acta Mat., 51 [6] 1633-9 (2003). (Link)

A.A. Shapiro, M.L. Mecartney, H.P. Lee. “A Comparison of Microstrip Models to Low Temperature Co-fired Ceramic-Silver Microstrip Measurements,” Microelectronics Journal, 33 [5-6] 443-7 (2002). (Link)
A.Y. Oral and M.L. Mecartney, “Properties of Sol-Gel Derived Strontium Barium Niobate Ceramics and the Effect of V2O5 Additive,” J. Materials Science, 36 [22] 5519-5527 (November 2001). (Link)
M.C. Gust, L.A. Momoda, N.D. Evans, and M.L. Mecartney, "Crystallization of Sol-Gel Derived Barium Strontium Titanate Thin Films," J. Am. Ceram. Soc., 84 [5] 1087-1092 (2001). (Link)
A.A. Shapiro, N. Kubota, K. Yu, M.L. Mecartney, “Stress testing of a recrystallizing CaOB2O3-SiO2 glass-ceramic with Ag electrodes for high frequency electronic packaging,” J.Electronic Materials, 30 [4] 386-390 (2001). (Link)
A.Y. Oral and M.L. Mecartney, “Phase and Microstructural Development of Sol-gel Derived SBN Thin Films”, J. of Mat. Res., 15 [6] 1417-1423 (2000). (Link)
P.H. Imamura, T. Sakuma, N.D. Evans, and M.L. Mecartney, “High Temperature Tensile Deformation of Glass Doped 3Y-TZP,” J. Am. Ceram. Soc., 83 [12] 3095-3099 (2000). (Link)
A.A. Sharif, P.H. Imamura, T.E. Mitchell, and M.L. Mecartney, "Control of Grain Growth Using Intergranular Silicate Phases in Cubic Yttria Stabilized Zirconia," Acta Mat., 46 3863-3872 (1998). (Link)
H. C. Allen, M.L. Mecartney, and J.C. Hemminger, "Minimizing Transmission Electron Microscopy Beam Damage during the Study of Surface Reaction on Sodium Chloride,"Microscopy and Microanalysis 4, 23-33, (1998). (Link)
M.C. Gust, N.D. Evans, L.A. Momoda, and M.L. Mecartney, "In-Situ Transmission Electron Microscopy Crystallization Studies of Sol-Gel Derived Barium Titanate Thin Films," J. Am. Ceram. Soc., 80 [11] 2828-36 (1997). (Link)
V. Joshi, D. Roy, and M.L. Mecartney, "Nonlinear Conduction in Textured and Nontextured Lithium Niobate Thin Films," J. of Integrated Ferroelectrics 8 [1-2] 321- 327 (1995). (Link)
G. Derderian, J.Barrie, K Atchison, P. Adams, M.L. Mecartney, "Microstructure/Process Relations in Sol-Gel Prepared KNbO3 Thin Films on (100) MgO," J. Am. Ceram. Soc.77[3] 820-828 (1994). (Link)
D. Roy, V. Joshi, and M.L. Mecartney, "Process/Property Correlations in Sol-Gel Derived Lithium Niobate Thin Films on Silicon," J. of Integrated Ferroelectrics, 4 [3] 207-215 (1994). (Link)
V. Joshi, D. Roy, and M.L. Mecartney, "Low Temperature Synthesis and Properties of Lithium Niobate Thin Films," Applied Physics Letters, 63 [10] 1331-1333 (1993). (Link)
V. Joshi and M.L. Mecartney, "The Influence of Water of Hydroysis on Microstructural Development in Sol-Gel Derived LiNbO3 Thin Films," J. of Mat. Res., 8 [10] 2668-2678 (1993). (Link)
M.C. Gust, G. Goo, J. A. Wolfenstine, and M.L. Mecartney, "Influence of Amorphous Grain Boundary Phases on the Superplastic Behavior of 3Y-TZP," J. Am. Ceram. Soc, 76 [7] 1681-90 (1993). (Link)

Mecartney Research Group