Accession Number:
AD1096367
Title:
Bioinspired Engineering Synthesis Technology (BEST) for Active Photonic (NBIT III)
Descriptive Note:
Technical Report,14 Aug 2013,13 Aug 2017
Corporate Author:
Regents of the University of California Berkeley United States
Personal Author(s):
Report Date:
2019-03-19
Pagination or Media Count:
48.0
Abstract:
Nanoplasmonic science have attracted significant interest in various applicationsincluding electronics, photonics, energy, environmental and biomedical applications.However, their practical applications still require overcoming a few critical problems 1 therational design and scalable synthesis of unconventional nanostructures with superiorproperties, 2 active controls and orientation of nanostructures, and 3 efficient integrationof nanostructures into functional devices.
Descriptors:
- bacteria
- chemical reactions
- detectors
- finite difference time domain
- raman spectroscopy
- scattering
- spectra
- surface plasmon polaritons
- electromagnetic fields
- lasers
- spectroscopy
- materials testing
- optics
- materials processing
- metallic nanoparticles
- optical properties
- surface plasmon resonance
- materials science
- chemical synthesis
- chemistry