Materials Science

Nanotechnology

Modern materials science seeks to understand and influence the behavior of materials at a variety of length scales, ranging from the atomic to the macroscopic, utilizing experimental and theoretical or computational tools as probes. Our experimental research includes nanoscience, biomaterials, high-temperature materials, laser-materials interaction and electrochemical process with diverse applications from transportation to medicine to renewable energy.

Current Projects:

  • Lasers are used to construct nano-structured materials for energy storage and power generation and are exploited in the field of adaptive optics and micromanipulation of materials with light.
  • Quantum mechanics-based simulation tools are developed and used to enable discovery and design of materials for sustainable energy, including converting sunlight to electricity and fuels, optimizing lightweight metal alloys for fuel-efficient vehicles, and characterizing hydrogen isotope incorporation into plasma facing components of fusion reactors.
  • Microstructural evolution is being examined with phase field approaches with applications to organic electronics, mechanics of materials, energy storage and renewable energy.
  • Electrochemical materials processing and additive, high throughput fabrication methods are being studied for energy storage applications, with a focus on low cost, long life systems. Static and dynamic strain analysis of complex materials systems as applied to energy storage.
  • Statistical mechanics tools are used to study the role of thermal fluctuations and disorder for the mechanics of materials and to guide a design of new mechanical metamaterials. Such metamaterials can be used to make sensitive force sensors, flexible electronics, drug delivery containers, micro-actuators, materials with tunable non-linear response, etc.
Craig Arnold
Professor
cbarnold@princeton.edu
(609) 258-0250
D410 Engineering Quadrangle/Bowen Hall Rm 320
Emily Carter
Dean, School of Engineering and Applied Science
Gerhard R. Andlinger Professor in Energy and the Environment
Professor of Mechanical and Aerospace Engineering and Applied and Computational Mathematics
eac@princeton.edu
(609) 258-5391
C230 Engineering Quadrangle
Daniel Cohen
Assistant Professor
djctwo@Princeton.edu
Mikko Haataja
Professor
mhaataja@Princeton.EDU
(609) 258-9126
D404C Engineering Quadrangle
Andrej
Assistant Professor
andrej@princeton.edu
(609) 258-8613
D414 Engineering Quadrangle
Daniel Steingart
Associate Professor of Mechanical and Aerospace Engineering and the Andlinger Center for Energy and the Environment
steingart@princeton.edu
(609) 258-1257
213 Andlinger