Unknown

Dataset Information

0

Unique Luminescence of Hexagonal Dominant Colloidal Copper Indium Sulphide Quantum Dots in Dispersed Solutions.

ABSTRACT: Luminescent hexagonal dominant copper indium sulphide (h-dominant CIS) quantum dots (QDs) by precursor-injection of mixed metal-dialkyldithiocarbamate precursors. Owing to the different reactivity of the precursors, this method allowed the CIS QDs to grow while retaining the crystallinity of the hexagonal nucleus. The photoluminescence (PL) spectra exhibited dual emission (600-700?nm red emission and 700-800?nm NIR emission) resulting from the combined contributions of the hexagonal (wurtzite) h-CIS and tetragonal (chalcopyrite) t-CIS QDs, i.e. the NIR and red emissions were due to the h-CIS QDs and coexisting t-CIS QDs (weight ratio of h-CIS/t-CIS ~ 10), respectively. The PL intensities of the h-CIS as well as t-CIS QDs were enhanced by post-synthetic heat treatment; the t-CIS QDs were particularly sensitive to the heat treatment. By separating h-CIS and t-CIS successfully, it was demonstrated that this phenomenon was not affected by size and composition but by the donor-acceptor pair states and defect concentration originating from their crystal structure. The h-dominant CIS QDs in this work provide a new technique to control the optical property of Cu-In-S ternary NCs.

SUBMITTER: Shin SJ 

PROVIDER: S-EPMC6934773 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Unique Luminescence of Hexagonal Dominant Colloidal Copper Indium Sulphide Quantum Dots in Dispersed Solutions.

Shin Samuel Jaeho SJ   Koo Ja-Jung JJ   Lee Jin-Kyu JK   Chung Taek Dong TD  

Scientific reports 20191227 1

Luminescent hexagonal dominant copper indium sulphide (h-dominant CIS) quantum dots (QDs) by precursor-injection of mixed metal-dialkyldithiocarbamate precursors. Owing to the different reactivity of the precursors, this method allowed the CIS QDs to grow while retaining the crystallinity of the hexagonal nucleus. The photoluminescence (PL) spectra exhibited dual emission (600-700 nm red emission and 700-800 nm NIR emission) resulting from the combined contributions of the hexagonal (wurtzite) h  ...[more]

Similar Datasets

Unknown Polarons Explain Luminescence Behavior of Colloidal Quantum Dots at Low Temperature.
| S-EPMC5976793 | biostudies-literature
Transcriptomics Whole transcriptome analysis of cadmium sulphide quantum dots response in Saccharomyces cerevisiae
2019-04-03 | GSE125759 | GEO
Unknown Aptamer Conjugated Indium Phosphide Quantum Dots with a Zinc Sulphide Shell as Photoluminescent Labels for Acinetobacter baumannii.
| S-EPMC8703687 | biostudies-literature
Unknown Colloidal Double Quantum Dots.
| S-EPMC4879659 | biostudies-other
Unknown Cadmium sulphide quantum dots with tunable electronic properties by bacterial precipitation.
| S-EPMC5397112 | biostudies-literature
Transcriptomics Bioaccumulation, cellular and molecular effects in adult zebrafish after exposure to cadmium sulphide quantum dots and ionic cadmium
2019-05-31 | GSE89756 | GEO
Unknown Effective Neural Photostimulation Using Indium-Based Type-II Quantum Dots.
| S-EPMC6117749 | biostudies-literature
Unknown Electrically control amplified spontaneous emission in colloidal quantum dots.
| S-EPMC6814376 | biostudies-literature
Unknown Observation of compositional domains within individual copper indium sulfide quantum dots.
| S-EPMC5048650 | biostudies-literature
Unknown Energy level tuned indium arsenide colloidal quantum dot films for efficient photovoltaics.
| S-EPMC6189201 | biostudies-literature