Photomechanical Materials, Composites, and Systems: Wireless Transduction of Light into Work
| Author | : | |
| Rating | : | 4.21 (765 Votes) |
| Asin | : | 1119123305 |
| Format Type | : | paperback |
| Number of Pages | : | 432 Pages |
| Publish Date | : | 2014-12-27 |
| Language | : | English |
DESCRIPTION:
The wirelessly triggered mechanical response can transform the shape, stiffness, or surface topography of the material. From the Back Cover Photomechanical effects in materials convert light into mechanical work. An exhaustive review of the history, current state, and future opportunities for harnessing light to accomplish useful work in materials, Photomechanical Materials, Composites, and Systems: Wireless Transduction of Light into Work offers a valuable one-stop reference and resource that: Reviews the history and future development of a rapidly growing and dynamic area of photomechanical effects in materialsDescribes photomechanical materials and mechanisms, along with key applicationsDeals with an interdiscipli
Timothy J. His research has generally focused on photoinduced effects in materials. . Dr. White has published more than 100 peer-reviewed papers. White is a leading researcher in the soft materials community, recently recognized by awards from the MRS, ACS, and SPIE. Dr. White, PhD, lives and works in Dayton, OH
An exhaustive review of the history, current state, and future opportunities for harnessing light to accomplish useful work in materials, this book describes the chemistry, physics, and mechanics of light-controlled systems.• Describes photomechanical materials and mechanisms, along with key applications• Exceptional collection of leading authors, internationally recognized for their work in this growing area• Covers the full scope of photomechanical materials: polymers, crystals, ceramics, and nanocomposites• Deals with an interdisciplinary coupling of mechanics, materials, chemistry, and physics• Emphasizes application opportunities in creating adaptive surface features, shape memory devices, and actuators; while assessing future prospects for utility in optics and photonics and soft robotics