Combining Quantitative Electrochemistry and Electron Microscopy to Study Reversible Lithiation of Silicon Nanowires
Abstract not provided.
Publications
Influence of Barrier Design on Current Collapse in High Voltage AlGaN/GaN HEMTs
Abstract not provided.
Gas permeability of graphene oxide membranes
Abstract not provided.
Combining Quantitative Electrochemistry and Electron Microscopy to Study Reversible Lithiation of Silicon Nanowires
Abstract not provided.
Exploring Lithiation of Single Cathodic Nanoparticles using Scanning Probe Microscopy
Abstract not provided.
The Role of Barrier Structure in Current Collapse of AlGaN/GaN High Electron Mobility Transistors with Thick AlGaN Barriers
Proposed for publication in Applied Physics Letters.
Abstract not provided.
Influence of Barrier Design on Current Collapse in High Voltage AlGaN/GaN HEMTs
Abstract not provided.
Langmuir-Blodgett Assembly of Graphitic Membranes
Abstract not provided.
Sodium-based Battery Development A family of batteries for large scale storage
Abstract not provided.
The Role of Barrier Structure in Current Collapse of AlGaN/GaN High Electron Mobility Transistors with Thick AlGaN Barriers
Proposed for publication in Applied Physics Letters.
Abstract not provided.
Influence of Barrier Design on Current Collapse in High Voltage AlGaN/GaN HEMTs
Abstract not provided.
Materials Challenges in Electrical Energy Storage: Phase Transformations Reaction Mechanisms and Degradation in Li-ion Batteries
Abstract not provided.
In-Situ TEM Electochemisty of Anode Materials in Lithium Ion Batteries
Abstract not provided.
In-Situ TEM Lithiation of Si
Abstract not provided.
Techniques for In-Situ TEM Characterization and Electrochemistry of Nanoscale Battery Materials
Abstract not provided.
Combining Quantitative Electrochemistry and Electron Microscopy to Study Nanostructured Materials Response and Stability: Reversible Lithiation of Silicon Nanowires
Abstract not provided.
Sodium-based Battery Development Programmatic Overview
Abstract not provided.
Techniques for insitu TEM and single nanoparticle electrochemistry of Liion battery materials
Abstract not provided.
Model Cathodic Nanoparticles Explored by Scanning Pobe Microscopy
Abstract not provided.
Hierarchical electrode architectures for electrical energy storage & conversion
The integration and stability of electrocatalytic nanostructures, which represent one level of porosity in a hierarchical structural scheme when combined with a three-dimensional support scaffold, has been studied using a combination of synthetic processes, characterization techniques, and computational methods. Dendritic platinum nanostructures have been covalently linked to common electrode surfaces using a newly developed chemical route; a chemical route equally applicable to a range of metals, oxides, and semiconductive materials. Characterization of the resulting bound nanostructure system confirms successful binding, while electrochemistry and microscopy demonstrate the viability of these electroactive particles. Scanning tunneling microscopy has been used to image and validate the short-term stability of several electrode-bound platinum dendritic sheet structures toward Oswald ripening. Kinetic Monte Carlo methods have been applied to develop an understanding of the stability of the basic nano-scale porous platinum sheets as they transform from an initial dendrite to hole containing sheets. Alternate synthetic strategies were pursued to grow dendritic platinum structures directly onto subunits (graphitic particles) of the electrode scaffold. A two-step photocatalytic seeding process proved successful at generating desirable nano-scale porous structures. Growth in-place is an alternate strategy to the covalent linking of the electrocatalytic nanostructures.
In-Situ TEM Electrochemistry of Anode Materials in Li-Ion Batteries
Abstract not provided.
Correlating Pit Initiation in Aluminum with Passive Oxide Defect Structure
Abstract not provided.
Correlating Pit Initiation in Aluminum with Passive Oxide Defect Structure
Abstract not provided.
Activation of Erbium Films for Hydrogen Storage
Abstract not provided.
Activation of Erbium Films for Hydrogen Storage
Abstract not provided.
Results 126–150 of 198