Plasmonic Carbon-Dot-Decorated Nanostructured Semiconductors for Efficient and Tunable Random Laser Action
Journal
Acs Applied Nano Materials
Journal Volume
1
Journal Issue
1
Pages
152-159
Date Issued
2018
Author(s)
Liao, Wei-Cheng
Liao, Yu-Ming
Su, Chuan-Tsung
Perumal, Packiyaraj
Lin, Shih-Yao
Lin, Wei-Ju
Chang, Cheng-Han
Ling, Hung-I.
Haider, Golam
Chang, Chiao-Yun
Chang, Shu-Wei
Tsai, Cheng-Yen
Lu, Tien-Chang
Lin, Tai-Yuan
Abstract
Carbon dots have emerged as popular materials in various research fields, including biological and photovoltaic areas, while significant reports are lacking related to their applications in laser devices, which play a significant role in our daily life. In this work, we demonstrate the first controllable random laser assisted by the surface plasmon effect of carbon dots. Briefly, carbon dots derived from candle soot are randomly deposited on the surface of gallium nitride (GaN) nanorods to enhance the ultraviolet fluorescence of GaN and generate plasmonically enhanced random laser action with coherent feedback. Furthermore, potentially useful functionalities of tunable lasing threshold and controllable optical modes are achieved by adjusting the numbers of carbon dots, enabling applications in optical communication and identification technologies. In addition to providing an efficient alternative for plasmonically enhanced random laser devices with simple fabrication and low cost, our work also paves a useful route for the application of environmentally friendly carbon dots in optoelectronic devices. © 2017 American Chemical Society.
SDGs
Other Subjects
Biological materials; Carbon; Controllability; Gallium nitride; III-V semiconductors; Laser beams; Nanorods; Nanostructures; Nitrides; Optical communication; Optoelectronic devices; Plasmonics; Surface plasmon resonance; Wide band gap semiconductors; Carbon nanodots; Gallium nitrides (GaN); Identification technology; Nanostructured semiconductor; Random lasers; Surface plasmon effects; Tunable random laser; Ultraviolet fluorescence; Semiconductor lasers
Type
journal article