Title
Low threshold organic semiconductor lasers [electronic resource] : hybrid optoelectronics and their application as explosive sensors / Yue Wang.
ISBN
9783319012674 electronic book
3319012673 electronic book
9783319012667
Published
Cham : Springer, [2013?]
Copyright
©2014
Language
English
Description
1 online resource.
Item Number
10.1007/978-3-319-01267-4 doi
Call Number
TA1700
Dewey Decimal Classification
621.366
Summary
Thisthesisfocuses on two areas - the development of miniature plastic lasers that can be powered by LEDs, and the application of these lasers as highly sensitive sensors for vapours of nitroaromatic explosives (e.g. TNT). Polymer lasers are extremely compact visible lasers; the research described in the thesis is groundbreaking, driving forward the technology and physical understanding to allow these lasers to be routinely pumped by a single high-power LED. A notable advance in the work is the demonstration of nanoimprinted polymer lasers, which exhibit the world's lowest pump threshold densities by two orders of magnitude. The thesis also advances the application of these compact, novel lasers as highly sensitive detectors of explosive vapours, demonstrating that rapid detection can be achieved when microporous polymers are used. This work also demonstrates a prototype CMOS-based microsystem sensor for explosive vapours, exploiting a new detection approach.
Dissertation Note
Ph.D. University of St. Andrews [2013?]
Bibliography, etc. Note
Includes bibliographical references.
Access Note
Access limited to authorized users.
Source of Description
Description based on print version record.
Series
Springer theses.
Introduction
Theory of organic semiconductor lasers
Experimental methods
Low-threshold and broadly tuneable organic lasers based on star-shaped oligofluorene truxenes
Commercial LED pumped organic semiconductor lasers
Low threshold nanoimprinted organic lasers integration with micro-LED arrays
Polymer with intrinsic microporosity used as explosive vapour sensors
Towards ultra-portable hybrid organic/inorganic explosives sensing devices
Conclusions and future work.