Research Topic:
Advanced Materials
About Advanced Materials
Research interests are centered on developing and understanding the phenomena involved in producing advanced materials for the optical, electronic, and allied industries. Thermodynamic, transport, and chemical processes governing the formation and subsequent behavior of these materials are under active investigation.
Research areas include modeling and optimizing CVD-reactor-system designs for developing nonlinear and electro-optic inorganic and organic materials for switching and memory applications.
Additional research areas are understanding phenomena involved in the production and use of microlens arrays, wave-guide lasers, and determining the composition, property, and structure relationships of crystalline and glassy materials.
Associated Faculty Members
David J. Duquette
John Tod Horton Distinguished Professor in Materials Engineering
Linda S. Schadler
Professor
Roger N. Wright
Professor
Daniel Gall
Associate Professor
Douglas B Chrisey
Professor
To Find Out More Go To: http://www.eng.rpi.edu.eng
Research Topics
Materials Science and Engineering faculty work across many discipliness, select a research topic from the list below to get a list of the faculty working in those areas:
- Advanced Materials
- Applied Mechanics/Mechanics of Materials
- Biomaterials
- Biomedical Engineering
- Biotechnology
- Cellular Engineering
- Ceramic Materials
- Composite Materials
- Computational Modeling
- Crystals
- Data Mining and Knowledge Acquisitions
- Electronic Devices
- Electronic Materials
- Energy
- Entrepreneurship
- Extracellular Matrix and Tissue Engineering
- Flexible Manufacturing
- Functional Tissue Engineering
- Glass Materials
- Heat Transfer
- High Voltage Engineering and Dielectric Phenomena
- Industrial Engineering
- Integrated Electronics
- Interfacial Phenomena
- Lasers
- Manufacturing and Service Operations
- Manufacturing Processes
- Manufacturing/Design
- Mass Transport
- Materials for Microelectronic Systems
- Materials IT
- Materials Processing
- Metallurgy
- Microelectronics Technology
- Microstructures
- Modeling
- Molecular Simulations
- Nanomaterials
- Nanotechnology
- Nuclear Science and Technology
- Optoelectronics
- Particles
- Plasma Science
- Plastics
- Polymers
- Process Control and Design
- Radiation
- Reliability
- Semiconductors
- Sensors
- Silicon
- Simulation
- Solar Energy
- Solid Mechanics
- Thermodynamics
- Thin Film
- Tissue Engineering
- Tissue-Implant Interfaces
- Tribology
- Wound Healing
Did you know?
Rensselaer's Department of Materials Science and Engineering...
- one of the oldest materials departments in the country,
- has consistently ranked among the top 15 Departments in the United States,
- committed to the educational process, to individual mentoring, and to academic excellence,
- offers many Undergraduate & Graduate courses in an interactive, hands-on format, and
- provides opportunities for undergraduate research.
Materials Science and Engineering offers students a variety of hands-on design opportunities—even bridge design! See a sample project from Design in Materials Engineering (MTLE – 4910)