Theses most similar to Texture improvements in the high-temperature superconducting Bi₂Sr₂Ca₁Cu₂Ox̳/Ag system via surface energy driven grain alignment (Vodhanel, Mark E; 2005) read it
Thermoelectric properties of Bi₁âx̳Sbx̳ nanowires and lead salt superlattice nanowires
Lin, Yu-Ming, 1974- (2003)
- Advisors: Jackie Y. Ying; Mildred S. Dresselhaus
- Department of Electrical Engineering and Computer Science
- Advisor: Harry L. Tuller
- Department of Materials Science and Engineering
Secondary-ion mass spectrometric analysis of oxygen-grain boundary diffusion in magnesium-oxide bicrystals
Liberatore, Michael James (1995)
- Advisor: Bernhardt J. Wuensch
- Department of Materials Science and Engineering
Determination of special boundary coordination at quadruple nodes using EBSD
Ng, Christopher, 1983- (2005)
- Advisor: Christopher A. Schuh
- Department of Materials Science and Engineering
Molecular beam epitaxial growth and charcterization of mismatched InGaAs and InAlAs layers on InP
Bennett, Brian R. (Brian Robert) (1993)
- Advisor: Jesús A. del Alamo
- Department of Materials Science and Engineering
- Advisors: Cohen, Morris, 1911-; John F. Breedis
- Department of Metallurgy and Materials Science
Transport properties and modification of the flux pinning in single crystal bismuth cuprate superconductors
Cutro, Janet Ann (1997)
- Advisor: Terry P. Orlando
- Department of Physics
Melt growth and microstructural control of single crystal YBCO high temperature superconducting materials
Rigby, Karina E. A. (Karina Erna Anne) (1997)
- Advisor: Michael J. Cima
- Department of Materials Science and Engineering
Investigation of phase separation in GaInAsSb using transmission electron microscopy
Ransom, Sara L. (Sara Louise), 1976- (1998)
- Advisors: Christine A. Wan; Eugene A. Fitzgerald
- Department of Materials Science and Engineering
Investigation of half-metallic ferromagnetism in NiMnSb spin dependent tunnel junctions
Tanaka, Clifford T. (Clifford Takashi) (1999)
- Advisors: Jagadeesh S. Moodera; Ronald M. Latanision
- Department of Materials Science and Engineering