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Accession Number:
AD1076697
Title:
Bioinspired Engineering Synthesis (BEST) for Active Photonic (NBIT III)
Corporate Author:
REGENTS OF THE UNIVERSITY OF CALIFORNIA BERKELEY United States
Report Date:
2019-03-19
Abstract:
Nanoplasmonic science hove attracted significant interest in various applications including electronics, photonics. energy, environmental and biomedical applications. However. their practical applications still require overcoming a few critical problems 1 the rational design and scalable synthesis of unconventional nanostructures with superior properties. 2 active controls and orientation of nanostructures, and 3 efficient integration of nanostructures into functional devices. In order to challenge these problems, our team hos focused on bioinspirations from nature where many complex structures are Spontaneously produced by precise controls over chemical and physical processes on various interfaces. The objective of our collaborative research is to develop bioinspired engineering synthesis technology BEST by uncovering hidden treasures in the nature of various interfaces. In order to accomplish this objective, Sogang University hos performed the synthesis and optimization of unconventional plasmonic nanoantennae and the active control of their motion. On the other hand, University of California at Berkeley has conducted the systematic characterization and optimization with multi-scale simulation. and the integration of plasmonic nanoantennae into microfluidic-based active devices for the biomedical applications.
Descriptive Note:
Technical Report,14 Aug 2013,13 Aug 2017
Pages:
0048
Distribution Statement:
Approved For Public Release;
File Size:
3.09MB
