Current Electronic Research Projects
Rachel S. Goldman
- Fundamental Phenomena in Semiconductors: Diffusion and Segregation
- Fundamental Phenomena in Semiconductors: Alloy Formation
- Fundamental Phenomena in Semiconductors: Strain Relaxation
- Structure-Property Correlations: Effects of Dislocations on Electron Mobility
- Structure-Property Correlations: Impurities in Semiconductors
- Structure-Property Correlations: Confined States in Nanostructures
- Synthesis of Low-Dimensional Semiconductor Structures: Semiconductor Quantum Dots
- Synthesis of Low-Dimensional Semiconductor Structures: Directed Matrix-Seeding of Nanostructures
- Synthesis of Low-Dimensional Semiconductor Structures: Fabrication of Nanopillar Arrays
- Synthesis of Low-Dimensional Semiconductor Structures: Ion-Cut-Synthesis
Joanna Millunchick
- Atomic Surface Structure in Compound Semiconductor Alloys: Mechanisms for Surface Segregation in Compound Semiconductor Thin Films
- Focused Ion Beams for Nanomanufacturing: Anisotropic Collodoidal Nanofludic Manufacturing
- The Materials Science of Metamorphic Buffer Layers for High Performance Device Applications
- Self-Assembly of Compound Semiconductor Nanostructures: Directed Assembly of Quantum Dots using Focused Ion Beams (FIB)
- Self-Assembly of Compound Semiconductor Nanostructures: Nucleation and Growth of GaSb/GaAs(001) Quantum Dots
- Atomic Surface Structure in Compound Semiconductor Alloys: Step Edge Diffusion in Compound Semiconductors
- Atomic Surface Structure in Compound Semiconductor Alloys: Novel Reconstructions in InGaAs Alloys
- Engineering of Strain Relaxation Using Focused Ion Beams
- Thermodynamic Phase Stability and Disorder of Surface Structure in Compound Semiconductor Alloys
Xiaoqing Pan
- Artifically Engineered Nanoscale Ferroelectrics
- NIRT Supplement: Artifically Engineered Nanoscale Ferroelectrics
- Focused Research Group (FRG): Piezoelectric Micromachined Transducers Using Epitaxial PMN-PT Films for Medical Ultrasound
- Synthesis and Characterization of Nanoscale Metal Oxide Heterostructures for Chemical Sensing
- Nanoscale Interdisciplinary Research Teams (NIRT): Complex Epitaxial Magnetic Oxide Structures for Nanoscale Spin Devices
- Nanoscale Interdisciplinary Research Teams (NIRT) Supplement: Artificially Engineered Nanoscale Ferroelectrics
- Epitaxial Heterostructures of Piezoelectric/Metallic Oxides for Medical Ultrasound Transducer Applications
- NIRT: Artificially Engineered Nanoscale Ferroelectrics
- CAREER Supplement: Processing/Structure/Property Relationships of Nanocrystalline Oxide Films for Gas Sensors
- Epitaxial Heterostructures of Piezoelectric / Metallic Oxides for Medical Ultrasound Transducer Applications
- Microstructural Instabilities of Nanocrystalline Oxide Thin Films for Gas Sensors
- CAREER: Processing - Structure Property Relationships of Nanocrystalline Oxide Films for Gas Sensors
- Semiconductive Oxide Thin Films for Electrochemical and Optical Applications
- Transparent Semiconductive Oxide Thin Films
- Metal Oxide Heterostructures for Next Generation Memory Devices
Max Shtein
- Portable thin film deposition systems
- Fiber-Based Organic Solar Cells
- Ordered Multi-Phase systems
- Three level systems for energy conversion
- See this page: http://www.umich.edu/~lnecd/temp/projects.html
- Carrier Gas-Assisted Purification and Printing of Organic Semiconductors
- Energy Harvesting Woven Fibers and Composites
- Electrically Pumped OLED NanoProbes for Near-Field Scanning Optical Microscopy
- Electrically Pumped Organic Solid-State Surface Plasmon Amplifier
- Nanoscale scanning energy probe microscopy
- http://www.umich.edu/~lnecd/temp/projects.html
- Guided biomimetic self-assembly of nanocrystal photovoltaic cells