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Keyword [superlattices]
Result: 61 - 80 | Page: 4 of 6
61. Magnetic properties and anisotropy in magnetic thin films and superlattices
62. Control of transport and magnetism in ferromagnetic semiconducting superlattices through growth conditions and chemical surface effects
63. Growth kinetics and investigations of spontaneous formation of superlattices in AlGaN alloys
64. Heat transport in superlattices and nanowire arrays
65. Fundamental Optical Studies of Single Crystalline DNA Nanoparticle Superlattices
66. Self-assembly of colloidal nanocrystals: Surface ligands promote the formation of unexpected superlattices
67. Epitaxial growth and stabilization of transition metal nitride-based superlattices and buffer layers
68. From nanocrystals to nanocrystal superlattices: Synthesis and properties
69. Perspectives from ab-initio and tight-binding: Applications to transition metal compounds and superlattices
70. Fabrication and Electronic Studies of PbSe Nanoparticle Superlattices
71. Simulational studies of epitaxial semiconductor superlattices: Quantum dynamical phenomena in ac and dc electric fields
72. The synthesis and characterization of crystalline superlattices ((TiSe2)(l)(NbSe(2))(m))(n): A new thin-film growth technique using multilayer reactants
73. The effect of structure on the mechanical and magnetotransport properties of metal thin films and superlattices
74. Molecular mechanics and ab initio simulations of silicon (111) surface reconstructions, semiconductors and semiconductor superlattices, hydrogen abstraction for nanotechnology, polysilane, and growth of CVD diamond
75. Electrodeposition of conducting metal oxide thin films and superlattices
76. X-ray study of indium(x) gallium(1-x) antimonide/indium arsenide superlattices and gallium antimonide/antimony elementary multilayers
77. Development of indium arsenide/indium gallium antimonide superlattices for infrared detection
78. Magnetic and magnetoelastic phenomena in rare earth dysprosium/lutetium superlattices and thin films
79. Novel magnetic behavior in heavy rare earth superlattices
80. An investigation of mercury zinc telluride-cadmium telluride strained -layer superlattices grown by molecular beam epitaxy
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