Copper iron chalcogenide semiconductor nanocrystals in energy and optoelectronics applications—State of the art, challenges, and future potential
Abstract I‐III‐VI2 semiconductor nanocrystals have been explored in countless
optoelectronics and green energy applications. While indium‐based compounds are …
optoelectronics and green energy applications. While indium‐based compounds are …
Electronic Structure and Spectroscopy of I–III–VI2 Nanocrystals: A Perspective
I–III–VI2 semiconductor nanocrystals have been applied to a host of energy conversion
devices with great success. Large scale implementation of device concepts based on these …
devices with great success. Large scale implementation of device concepts based on these …
A Perspective on Photocatalytic Synthesis of NH3, Urea, and Amino Acids by Nanomaterials: Progress and Prospects
A sustainable world is only possible when we are ready to deliver a net zero carbon
emission energy sector. In this regard, we must not only consider more renewable energy …
emission energy sector. In this regard, we must not only consider more renewable energy …
Optical properties and electronic structure of copper zinc sulfide nanocrystals
Continued efforts to transition toward renewable energy sources have spurred tremendous
research into the discovery of near-infrared gap semiconductors. Here we describe the …
research into the discovery of near-infrared gap semiconductors. Here we describe the …
Solution grown quantum dots for quantum science
Solution grown quantum dots (QD) are promising materials for photonic quantum science.
These materials are strongly confined and further offer advantages in terms of …
These materials are strongly confined and further offer advantages in terms of …
Theoretical Model for Luminescence Broadening and Anomalous Carrier Dynamics in Chalcopyrite Quantum Dots
We present a theoretical approach to understanding the role of defect states in hole
localization in chalcopyrite quantum dots. The total energy of the electron–phonon coupled …
localization in chalcopyrite quantum dots. The total energy of the electron–phonon coupled …
[PDF][PDF] Towards fluorescence upconversion spectroscopy of WS2 monolayers
M Kapitzke - 2022 - pure.mpg.de
SINCE the synthesis of graphene in 2004 [1], there has been a drastic increase in interest in
atomically thin materials. Inspired by the impressive progress in this area, alternative …
atomically thin materials. Inspired by the impressive progress in this area, alternative …
[HTML][HTML] Local field effect on luminescent properties of organic molecule-doped silica nanoparticles
The local field effect involves the modification of the spontaneous emission rate of an
emitting center in a nanoparticle (NP) due to its environment which modifies the photon …
emitting center in a nanoparticle (NP) due to its environment which modifies the photon …
[CITATION][C] Study of complexation and energy transfer phenomenons in core/shell quantum dots-tetraphenyl porphyrin systems in solution
S Nayek, S Nayak, S Bhattacharya… - Journal of Porphyrins …, 2024 - World Scientific
Free-base tetraphenyl porphyrin (H2TPP) undergoes spontaneous interaction with
CdSe/ZnS (core/shell) quantum dots (C/S QD) having a diameter of 5 to 10 nm in solution …
CdSe/ZnS (core/shell) quantum dots (C/S QD) having a diameter of 5 to 10 nm in solution …