Electrical and thermal behavior of bulk and thin film SrTiO3
Abstract not provided.
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Jump to search filtersDielectric Resonators for Backward Wave Infrared Metamaterials
Abstract not provided.
Chemical Phase and Interface Effects in Solution-Based Fabrication of Continuous and Nanopatterned Thin Film Ferroelectrics
Abstract not provided.
Understanding and minimizing extrinsic thermophysical and chemical effects on ferroelectric thin films
Abstract not provided.
Understanding and Minimizing Extrinsic Thermophysical and Chemical Effects in Ferroelectric Thin Films
Abstract not provided.
Optically Transparent Matrix Materials for LWIR-Metamaterials
Abstract not provided.
Dielectric Resonators for Backward Wave Infrared Metamaterials
Abstract not provided.
A Summary of the Theory and Design Team Efforts for the Sandia Metamaterials Science and Technology Grand Challenge LDRD
Abstract not provided.
An automated electrochemical probe for evaluation of thin films
Journal of the Electrochemical Society
An electrochemical probe station (EPS) for automated electrochemical testing of electronic-grade thin films is presented. Similar in design to a scanning droplet cell, this modular system features a flexible probe tip capable of contacting both metallic and oxide surfaces. Using the highly sensitive Pt-H 2SO 4 system, it is demonstrated that the EPS obtains results equivalent to those of a traditional electrochemical cell. Further, electrical testing of thin film PbZr 0.52Ti 0.48O 3 shows that this system may be used to ascertain fundamental electrical properties of dielectric films. © 2012 The Electrochemical Society.
Altering Thermal Boundary Conductance in Al/Al2O3 and Al/Si Boundaries Using Ion Beam Radiation
Abstract not provided.
UNDOPED TETRAGONAL ZIRCONIA NANOFIBER FABRICATION BY FORCESPINNING A POLYVINYLPYRROLIDONE ZR CHELATE COMPOSITION
Journal of Materials Research
Abstract not provided.
Improving electrostatic energy storage density by minimizing voltage tuning
Abstract not provided.
Electrochemical Response of Pb(ZrTi)O3 Thin Films
Abstract not provided.
Aging in precrystallized solution derived PZT thin films
Abstract not provided.
Fast lithium-ion conducting thin-film electrolytes integrated directly on flexible substrates for high-power solid-state batteries
Advanced Materials
By utilizing an equilibrium processing strategy that enables co-firing of oxides and base metals, a means to integrate the lithium-stable fast lithium-ion conductor lanthanum lithium tantalate directly with a thin copper foil current collector appropriate for a solid-state battery is presented. This resulting thin-film electrolyte possesses a room temperature lithium-ion conductivity of 1.5 × 10 -5 S cm -1, which has the potential to increase the power of a solid-state battery over current state of the art. Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
Grain size and porosity effects on the thermal conductivity of SrTiO3 thin films
Abstract not provided.
Chemically homogeneous Pb(ZrTi)O3 thin films via ZnO-buffered platinized silicon substrates
Abstract not provided.
All-Dielectric Infrared Metamaterials
Abstract not provided.
All-Dielectric Infrared Metamaterials
Abstract not provided.
Engineered gate oxides for wide bandgap semiconductor MOSFETs
Abstract not provided.
Copy of Processing Optimization for Improved Lead Zirconate Titanate Thin Films
Abstract not provided.
Phase and texture evolution in solution deposited PZT thin films
Abstract not provided.
Electrochemistry of Thin Film Ferroelectrics
Abstract not provided.
Chemically homogeneous complex oxide thin films via substrate engineering
Abstract not provided.
Minimizing Voltage Tuning for Enhanced High Field Energy Storage
Abstract not provided.
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