I–III–VI quantum dots and derivatives: design, synthesis, and properties for light-emitting diodes
Quantum dots (QDs) are important frontier luminescent materials for future technology in
flexible ultrahigh-definition display, optical information internet, and bioimaging due to their …
flexible ultrahigh-definition display, optical information internet, and bioimaging due to their …
Defect engineering in biomedical sciences
M Yuan, M Kermanian, T Agarwal, Z Yang… - Advanced …, 2023 - Wiley Online Library
With the promotion of nanochemistry research, large numbers of nanomaterials have been
applied in vivo to produce desirable cytotoxic substances in response to endogenous or …
applied in vivo to produce desirable cytotoxic substances in response to endogenous or …
[HTML][HTML] Controlling optical properties and electronic energy structure of I–III–VI semiconductor quantum dots for improving their photofunctions
T Torimoto, T Kameyama, T Uematsu… - Journal of Photochemistry …, 2023 - Elsevier
Abstract I–III–VI multinary semiconductors, which have low toxicity, are attracting much
attention as quantum dot (QD) materials for replacing conventional binary semiconductors …
attention as quantum dot (QD) materials for replacing conventional binary semiconductors …
Selected I-III-VI2 Semiconductors: Synthesis, Properties and Applications in Photovoltaic Cells
I–III–VI2 group quantum dots (QDs) have attracted high attention in photoelectronic
conversion applications, especially for QD-sensitized solar cells (QDSSCs). This group of …
conversion applications, especially for QD-sensitized solar cells (QDSSCs). This group of …
Sterically invariant carborane-based ligands for the morphological and electronic control of metal–organic chalcogenolate assemblies
HA Mills, CG Jones, KP Anderson, AD Ready… - Chemistry of …, 2022 - ACS Publications
Herein, we report the use of sterically invariant carborane-based chalcogenols, containing
exopolyhedral B–Se or B–S bonds, as ligands for the formation of photoluminescent copper …
exopolyhedral B–Se or B–S bonds, as ligands for the formation of photoluminescent copper …
Development of Cu–In–Ga–S quantum dots with a narrow emission peak for red electroluminescence
C Jiang, M Tozawa, K Akiyoshi, T Kameyama… - The Journal of …, 2023 - pubs.aip.org
Narrowing the emission peak width and adjusting the peak position play a key role in the
chromaticity and color accuracy of display devices with the use of quantum dot light-emitting …
chromaticity and color accuracy of display devices with the use of quantum dot light-emitting …
Seed-mediated growth synthesis and tunable narrow-band luminescence of quaternary Ag–In–Ga–S alloyed nanocrystals
O Lin, L Wang, X Xie, S Wang, Y Feng, J Xiao, Y Zhang… - Nanoscale, 2024 - pubs.rsc.org
Silver-based I–III–VI-type semiconductor nanocrystals have received extensive attention due
to their narrow-band luminescence properties. Herein, we demonstrated a seed-mediated …
to their narrow-band luminescence properties. Herein, we demonstrated a seed-mediated …
One-pot synthesis of Ag–In–Ga–S nanocrystals embedded in a Ga 2 O 3 matrix and enhancement of band-edge emission by Na+ doping
M Tozawa, C Miyamae, K Akiyoshi, T Kameyama… - Nanoscale …, 2023 - pubs.rsc.org
I–III–VI-based semiconductor quantum dots (QDs) have been intensively explored because
of their unique controllable optoelectronic properties. Here we report one-pot synthesis of …
of their unique controllable optoelectronic properties. Here we report one-pot synthesis of …
Spectrally Narrow Blue-Light Emission from Nonstoichiometric AgGaS2 Quantum Dots for Application to Light-Emitting Diodes
M Tozawa, S Ofuji, M Tanaka, K Akiyoshi… - … Applied Materials & …, 2024 - ACS Publications
Luminescence color tuning of less toxic I–III–VI-based quantum dots (QDs) has been
intensively investigated for application in wide-color-gamut displays. However, the emission …
intensively investigated for application in wide-color-gamut displays. However, the emission …
Modulation of Optical and Electronic Properties in InP Quantum Dots through Residual Halide Ions at the Heterostructural Interface
HM Kim, GM Park, D Shin, SM Park, Y Kim… - Chemistry of …, 2024 - ACS Publications
This study explores the role of residual halide ions (Cl, Br, and I) in modulating the optical
and electronic properties of heterostructured InP quantum dots (QDs) with ZnSe/ZnS double …
and electronic properties of heterostructured InP quantum dots (QDs) with ZnSe/ZnS double …