k Nanowire tweezers, computer artwork Nanowire tweezers. Computer artwork showing nanowires grey cylinders surrounded by an electric field red and yellow. The electric field, known as an optoelectronic tweezer, is able to control the direction and orientation of the nanowires. This will allow the accurate building of nanoscale devices. Nanowires are artificially grown crystal filaments that measure only a few nanometres billionths of a metre in diameter, and several microns thousandths of a metre in length. They may have applications in electronics and photonics control of light photons, such as extremely small lasers, solar cells, switches and sensors. This research was carried out in 2008 by Peidong Yang and colleagues at the University of California, Berkeley, USA. Stock Photo - Afloimages
Sign up
Login
All images
Nanowire tweezers, computer artwork Nanowire tweezers. Computer artwork showing nanowires grey cylinders surrounded by an electric field red and yellow . The electric field, known as an optoelectronic tweezer, is able to control the direction and orientation of the nanowires. This will allow the accurate building of nanoscale devices. Nanowires are artificially grown crystal filaments that measure only a few nanometres billionths of a metre in diameter, and several microns thousandths of a metre in length. They may have applications in electronics and photonics control of light photons , such as extremely small lasers, solar cells, switches and sensors. This research was carried out in 2008 by Peidong Yang and colleagues at the University of California, Berkeley, USA.
RM
Add to Lightbox
Download Comp

Nanowire tweezers, computer artwork

Nanowire tweezers. Computer artwork showing nanowires (grey cylinders) surrounded by an electric field (red and yellow). The electric field, known as an optoelectronic tweezer, is able to control the direction and orientation of the nanowires. This will allow the accurate building of nanoscale devices. Nanowires are artificially grown crystal filaments that measure only a few nanometres (billionths of a metre) in diameter, and several microns (thousandths of a metre) in length. They may have applications in electronics and photonics (control of light photons), such as extremely small lasers, solar cells, switches and sensors. This research was carried out in 2008 by Peidong Yang and colleagues at the University of California, Berkeley, USA.

Details

ID
163236137

Collection

License type
Rights Managed

Photographer



More
Top Categories
Editorial
2024 Paris Olympics
Latest News
Latest Sport
Latest Entertainment
2020 Tokyo Olympics
Creative
People and Lifestyle
Sport and Leisure
Business and Technology
Landscape
Animals
Videos
Sport and Leisure
Drone and Timelapse
People and Lifestyle
Business and Technology
Landscape
Sign in
Register
Member access
Login not found.
Forgot Your Password?