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Research Areas
Research in materials science and engineering may focus on
a discipline which could be a specific material or category
of material (steel or magnetic materials, for example) or
on a theme which could be an approach (such as computational
science), a process (such as welding), or a principle common
to many materials (corrosion, for example). Below is a list
of some of the areas of research currently underway
in MIT's DMSE. See Materials@MIT for stories, links, and updates on materials research throughout MIT.
- Biotechnology
- Characterization
- Computational
Materials Science involves
and enables the visualization of concepts and materials
processes which are otherwise difficult to describe or even
imagine. Among other things, this field of allows materials
to be designed and tested efficiently.
- Corrosion
and Environmental Effects. The H.H. Uhlig Lab investigates the causes of failure in materials and the prevention of failure in materials, with an emphasis on nuclear materials.
- Defects
- Devices
- Economics
of Materials
- Electrochemistry
- Electronic,
Optical, and Magnetic Properties
- Energy
and the Environment
includes research on creating and improving power supplies,
working with alternative power sources, and improving materials
processing and recycling. The H.H. Uhlig Lab has the ability to test and analyze failure modes of any materials related to nuclear engineering in the fields of fission, fusion and nuclear research.
- Magnetic
Properties
- Manufacturing
- Materials
Culture is the study of the
structure and properties of materials associated with human
activity. Plant and animal food remains, human skeletal
material, as well as metal, ceramic, stone, bone, and fiber
artifacts are the objects of study, along with the environments
within which these materials were produced and used.
MIT's Center for Materials Research in Archaeology and Ethnology
(CMRAE)
is renowned for their work in this area.
- Materials
Processing
- Materials
Theory
- Mechanical
Properties and Nanomechanics
One DMSE facility performing research in this area is the
NanoMechanical Technology Lab (the NanoLab).
- Nanotechnology
MIT's School of Engineering's Tiny
Technologies, or "TT," initiative seeks through
advanced, interdisciplinary research, to create new knowledge
and novel technologies in the fast-moving fields of nano-
and micro-scale technologies. TT research covers projects
ranging from atomic-level manipulation (e.g., nanocrystals)
to the micro-scale (e.g., MEMS devices). It draws upon faculty
expertise from departments across the School of Engineering
and represents one of the broadest, most pervasive areas
of study underway in the School today. These new developments
promise to enhance our way of life in areas such as communication,
healthcare, and transportation, among others. DMSE
is active in nanotechnology research.
One DMSE facility performing research in this area is the
NanoMechanical Technology Lab (the NanoLab).
- Optoelectronics
- Phase
Transformations
- Self
Assembly
- Surfaces,
Interfaces, and Thin Films
- Transport
Properties
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