EXPERIMENTAL STUDY OF 3D SELF-ASSEMBLED PHOTONIC CRYSTALS AND COLLOIDAL CORE-SHELL  SEMICONDUCTOR QUANTUM DOTS

Pham Thu Nga; Vu Duc Chinh; Nguyen Xuan Nghia; Nguyen Viet Huy; Dao Nguyen Thuan; Pham Thai Cuong; Chu Viet Ha; Do Thuy Chi; Nguyen Nhu Dat; Le A Lan Anh; C. Barthou; P. Benalloul; M. Romanelli; A. Maître

doi:10.29037/ajstd.202

ASEAN Journal on Science and Technology for Development (Nov 2017)

EXPERIMENTAL STUDY OF 3D SELF-ASSEMBLED PHOTONIC CRYSTALS AND COLLOIDAL CORE-SHELL SEMICONDUCTOR QUANTUM DOTS

Pham Thu Nga,
Vu Duc Chinh,
Nguyen Xuan Nghia,
Nguyen Viet Huy,
Dao Nguyen Thuan,
Pham Thai Cuong,
Chu Viet Ha,
Do Thuy Chi,
Nguyen Nhu Dat,
Le A Lan Anh,
C. Barthou,
P. Benalloul,
M. Romanelli,
A. Maître

Affiliations

Pham Thu Nga: Institute of Materials Science, Vietnamese Academy of Science and Technology Faculty of Engineering Physics and Nano -Technology, College of Technology
Vu Duc Chinh: Institute of Materials Science, VAST
Nguyen Xuan Nghia: Institute of Materials Science, VAST
Nguyen Viet Huy: Institute of Materials Science, VAST
Dao Nguyen Thuan: Faculty of Engineering Physics and Nano -Technology, College of Technology
Pham Thai Cuong: Thai Nguyen Pedagogical University, Thai Nguyen
Chu Viet Ha: Thai Nguyen Pedagogical University, Thai Nguyen
Do Thuy Chi: Thai Nguyen Pedagogical University, Thai Nguyen
Nguyen Nhu Dat: Institute of Physics and Electronics, VAST,
Le A Lan Anh: Institute of Chemistry, VAST
C. Barthou: Institut des Nano Sciences de Paris (INSP), UMR - CNRS 7588
P. Benalloul: Institut des Nano Sciences de Paris (INSP), UMR - CNRS 7588
M. Romanelli: Institut des Nano Sciences de Paris (INSP), UMR - CNRS 7588
A. Maître: Institut des Nano Sciences de Paris (INSP), UMR - CNRS 7588

DOI: https://doi.org/10.29037/ajstd.202
Journal volume & issue: Vol. 24, no. 1&2
pp. 161 – 170

Abstract

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In this contribution we present an experimental study of 3D opal photonic crystals. The samples are opals constituted by colloidal silica spheres, realized with self-assembly technique. The sphere diameter is selected in order to obtain coupling of the photonic band gap with the emission from CdSe/ZnS colloidal quantum dots. The quantum dots infiltrated in the opals is expected to be enhanced or suppressed depending on the detection angle from the photonic crystal. The structural and optical characterization of the SiO2 opal photonic crystals are performed by field-emission scanning electron microscopy and reflectivity spectroscopy. Measurements performed on samples permits to put into evidence the influence of the different preparation methods on the optical properties. Study of self-activated luminescence of the pure opals is also presented. It is shown that the luminescence of the sample with QDs have original QD emission and not due to the photonic crystal structure. The optical properties of colloidal core-shell semiconductor quantum dots of CdSe/ZnS which are prepared in our lab will be mention.

Published in ASEAN Journal on Science and Technology for Development

ISSN: 0217-5460 (Print); 2224-9028 (Online)
Publisher: Universiti Brunei Darussalam
Country of publisher: Brunei Darussalam
LCC subjects: Technology: Technology (General); Science: Science (General)
Website: https://ajstd.ubd.edu.bn/journal/

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