All-marine based random lasers
Journal
Organic Electronics: physics, materials, applications
Journal Volume
29
Journal Issue
43
Pages
209-215
Date Issued
2017
Author(s)
Lin, W.-J.
Abstract
Towards the sustainable development, optoelectronic devices with biodegradability and biocompatibility have been a desirable but challenging issue for years. In this study, an all-biomaterial random laser device based on all-marine elements has been demonstrated. Chlorophyll and blue coral skeletons serve as gain medium and scattering centers, respectively. The chlorophyll is derived from marine diatoms, which are ubiquitous in the ocean and set up an abundant source for the device. On the other hand, the coral skeletons with intrinsic nanorod structures can provide a strong optical confinement and feedback for laser action. The proposed design signifies the novel application of marine materials and represents a significant step for the development of bio-inspired photonics modules. © 2018
Subjects
Bio-inspired materials; Chlorophyll; Coral skeletons; Multiple scattering; Random lasers
SDGs
Other Subjects
Biocompatibility; Biodegradability; Chlorophyll; Multiple scattering; Musculoskeletal system; Nanorods; Optoelectronic devices; Bio-inspired materials; Coral skeleton; Marine diatoms; Marine elements; Novel applications; Optical confinement; Random lasers; Scattering centers; Laser beams
Type
journal article