Faculty
Jump to: Teaching Faculty - Research Professors, Researchers, and Post-Docs (EPAs) - Emeritus and Retired Faculty
- Maurice Balik: Use of sorption and diffusion of small molecules to probe structure and morphology in polymers, mechanical alloying of polymers, structure-property relationships in polymers.
- Donald W. Brenner: Atomistic simulations of the structure, growth and properties of thin films; simulated engineering of nanometer-scale structures and devices; solid-state chemical dynamics.
- Jerome J. Cuomo: Aging Aircraft Issues, Agile Manufacturing, Material Problem Solving Methodology, Depainting, Composite Materials, Renewable Energy, Plasma Processes, including Atmospheric Plasmas, Tribological Coatings, Basic studies in Thin Film Materials and Processes and their Industrial Applications
- Gerd Duscher: Electrical Activity at Interfaces - atomic and electronic structure at interfaces, atomic resolution Z-contrast imaging, atomic resolution electron energy-loss spectroscopy, atomistic calculations with density functional theory.
- Nadia El-Masry: Growth and characterization of III-V thin film semiconductor materials and bulk metallic alloys; structural characterization by x-ray and transmission electron microscopy; growth and characterization of magnetic materials.
- Douglas L. Irving
- Mark Johnson: Crystal growth and device fabrication of compound semiconductor materials with electronic and photonic application.
- Jag Kasichainula: Thin film deposition of ceramics, diamond, composites, semiconductors and superconductors; analytical characterization of microstructural features, interfaces and grain boundaries; dislocation theory, deformation and fracture of materials; modeling of physical behavior of materials.
- Angus Kingon: Thin films; thin film processing; oxides; ceramic processing, electronic ceramics, ferroelectric and dielectric materials, oxide superconductors, transformation toughened ceramics; fast ion conductors; chemical process routes to thin films and ceramics; vapor synthesis of powders; nanoparticles; nanocrystalline materials; nonvolatile memories; capacitors; DRAMs; pyroelectric detectors; phosphors; field emission displays; SAW devices.
- Carl Koch: Nonequilibrium processing, including rapid solidification, vapor quenching and mechanical alloying; alloying behavior and phase transformations; amorphization and nanoscale structures by mechanical attrition; high melting temperature intermetallic compounds; high transition temperature oxide superconductors.
- Tzy-Jiun Mark Luo: Synthesis of bio-inorganic hybrid materials and bio-inspired materials through self-assembled processes, cell growth, sol-gel processing, and soft-lithography. Exploration of new concept for bio-fuel/bio-solar cell applications based on electrical and optical properties of novel materials.
- Jon-Paul Maria: Thin film deposition via vapor and chemical routes, X-ray diffraction, novel materials development and novel integration for electroceramic applications, ferroelectric crystals, dielectric property characterization.
- Anatoli Melechko
- Korukonda L. Murty: Mechanical metallurgy, failure analysis, corrosion and stress corrosion cracking, structure-property relations, embrittlement of nuclear pressure vessel steels, formability of metals, superplasticity, development of crystallographic texture and the resulting anisotrophic properties, mechanical integrity of electronic packaging materials, dynamical behavior of point and line defects in solids using nuclear magnetic resistance.
- Jay Narayan: Ion implantation and defects in semiconductors, rapid thermal and transient thermal processing of semiconductors, laser-solid interactions, doping, diffusion and gettering in semiconductors and supersaturated semiconductor alloys for advanced electronic devices, high temperature superconductors, diamond and diamond-like thin films, atomic scale characterization of defects and interfaces, physical and chemical vapor deposition of thin films, pulsed laser deposition, Laser-MBE, atomic-resolution electron microscopy, electrical and optical properties, modeling of thin film growth and defects and interfaces, novel approaches to thin film epitaxy, semiconductor thin film heterostructures and solid-state devices, and nanostructured materials.
- Thomas A. Rawdanowicz
- J. Michael Rigsbee: Phase transformations, surface engineering, materials characterization, thin films. Atomic-level design of non-equilibrium alloys using physical vapor deposition techniques and the application of electron optics-based microstructural and microchemical characterization techniques.
- George Rozgonyi: Defect engineering of semiconductors, including radiation stimulated annealing and epitaxial growth of silicon, impurity control in silicon via intrinsic and extrinsic gettering processes, point defect/extended defect dynamics during ion implantation and silicidation, and nano-scale contacts and junctions for giga-scale integrated circuit technology.
- Ron O. Scattergood: Mechanics and physics of materials, with emphasis on mechanical properties and fracture mechanics. Areas of expertise include mechanical behavior, defect theory, tribology and precision engineering.
- Zlatko Sitar: Thin film and bulk crystal growth of wide bandgap III-nitride semiconductors; heteroepitaxial growth of diamond thin films; silicon on diamond technology; field emission from carbon materials.
- Richard Spontak: Effects of homo/copolymer blending, molecular architecture, monomer sequencing, and solvation on the phase behavior of microstructural polymer systems.
- Joe Tracy: Chemistry, physics, and toxicology of colloidal magnetic and metallic nanoparticles, and their applications in composite materials, devices, spintronics, biology and medicine.
- Yaroslava Yingling: Multiscale molecular modeling as applied to design, fabrication and properties of biological nanoparticles and nanomaterials; structure-function relationship and tertiary structure prediction of RNA; laser micromachining, degradation, and characterization of polymeric, composite and biological materials.
- Yuntian Zhu: Synthesis of long carbon nanotubes (CNTs) and CNT arrays, CNT fibers, CNT composites, nano energy materials, solar cells, deformation physics of nano metals and alloys, design and development of nano metals and alloys with high strength and high ductility.
Teaching Faculty
Jump to: Faculty - Research Professors, Researchers, and Post-Docs (EPAs) - Emeritus and Retired Faculty
- Keith Dawes
- Yusef Fahmy
- Maria L. Fiedler
- C. Lewis Reynolds
Research Professors, Researchers, and Post-Docs (EPAs)
Jump to: Faculty - Teaching Faculty - Emeritus and Retired Faculty
- Osama Aboelfotoh
- Tsan-Yao Chen
- Ramon Collazo
- Rafael F. Dalmau
- Avinash Dongare
- Roberto Garcia
- Dieter Griffis
- Alexei Grouverman
- C. Richard Guarnieri
- Yanhong Hu
- Stephen Hudak
- Thomas Hunter
- Jesse S. Jur
- Zhengmin Li
- Daniel J. Lichtenwalner
- Jinggang Lu
- Peng Lu
- Baxter F. Moody
- James Mulling
- Robert C. Roth
- Gregory Sabin
- Roger Sanwald
- Raoul Schlesser
- Andriy Semychayevsky
- Yunfeng Shi
- Nori Sudhakar
- Lipeng Sun
- Darin Thomas
- Junwei Wang
- Khaled Youssef
- Xuegong Yu
- Xinkun Zhu
- Dejin Zhuang
Emeritus and Retired Faculty
Jump to: Faculty - Teaching Faculty - Research Professors, Researchers, and Post-Docs (EPAs)
- Klaus Bachmann: Novel compound semiconductors heterostructures with applications in optoelectronics, e.g., solar cells, light sources and photodetectors. Advanced methods of heteroepitaxy, e.g., pulsed chemical beam epitaxy and rapid thermal organometallic chemical vapor deposition. Investigations of chemical thermodynamics and kinetics.
- Ray Benson: New concepts regarding microstructures and their relationships to phase transformations in surface modified materials, along with the improvements in selected materials properties these new microstructures can produce, are being investigated in both metals and semiconductors.
- Charles Chiklis
- Hans Conrad
- Robert F. Davis: Growth and characterization of semiconductors, ceramic thin films and ceramic coatings, kinetics and mechanisms of creep in ceramic materials.
- Abdel A. Fahmy: Multiphase and composite materials, particularly their thermal expansion behavior, elastic properties, lamination stresses and strength and failure modes; thermal stress and thermal expansion in materials and devices; x-ray diffraction; nuclear reactor materials.
- Kerry S. Havner: Fundamental mechanics of materials, in particular crystal and polycrystal plasticity; theories and analyses of anisotropic slip-systems hardening in metals as related to finite deformation experiments, texture evolution, and subgrain formation.
- John Hren: High resolution microscopy and spectroscopy (TEM, FEM, FIM, AP), microfabrication, vacuum microelectronics, electron emission.
- Hayne Palmour
- Phillip Russell: Utilization of ion and electron beam techniques for materials characterization and modification; semiconductor characterization; scanning tunneling, scanned probe, nanotechnology scanning electron and atomic force microscopy; microfabrication techniques using ion and electron beams, surface analysis.
- Hans Stadelmaier