Recent Advances in Zinc‐Containing Colloidal Semiconductor Nanocrystals for Optoelectronic and Energy Conversion Applications - Chen - 2019 - ChemElectroChem - Wiley Online Library
Pushing the Band Gap Envelope of Quasi-Type II Heterostructured Nanocrystals to Blue: ZnSe/ZnSe1-XTeX/ZnSe Spherical Quantum Wells | Energy Material Advances
Electronic band structures of ZnSe determined with mBJ-LDA (a) and... | Download Scientific Diagram
Thick-shell CdZnSe/ZnSe/ZnS quantum dots for bright white light-emitting diodes - ScienceDirect
Figure 3 from Moving past 2.0eV: Engineered ZnSe-GaAs alloys for multijunction solar cells | Semantic Scholar
Tailoring the Band Gap in the ZnS/ZnSe System: Solid Solutions by a Mechanically Induced Self-Sustaining Reaction | Inorganic Chemistry
Controllable growth of ZnO–ZnSe heterostructures for visible-light photocatalysis - CrystEngComm (RSC Publishing) DOI:10.1039/C3CE42068J
Pushing the Band Gap Envelope of Quasi-Type II Heterostructured Nanocrystals to Blue: ZnSe/ZnSe1-XTeX/ZnSe Spherical Quantum Wells | Energy Material Advances
Zinc selenide - Wikipedia
Pushing the Band Gap Envelope of Quasi-Type II Heterostructured Nanocrystals to Blue: ZnSe/ZnSe1-XTeX/ZnSe Spherical Quantum Wells | Energy Material Advances
A beyond near-infrared response in a wide-bandgap ZnO/ZnSe coaxial nanowire solar cell by pseudomorphic layers - Journal of Materials Chemistry A (RSC Publishing) DOI:10.1039/C4TA02971B
Role of magnesium in band gap engineering of sub-monolayer type-II ZnTe quantum dots embedded in ZnSe: Journal of Applied Physics: Vol 110, No 3
Energy band gap determination of ZnSe nanoparticles. The UV-visible... | Download Scientific Diagram
Electronic band structure of the ordered Zn0.5Cd0.5Se alloy calculated by the semi-empirical tight-binding method considering second-nearest neighbor
A Study by Ab-Initio Calculation of Structural and Electronic Properties of Semiconductor Nanostructures Based on ZnSe
Frontiers | Bandgap Engineering of Indium Phosphide-Based Core/Shell Heterostructures Through Shell Composition and Thickness
Temperature Dependence of the Band-Gap Energy and Sub-Band-Gap Absorption Tails in Strongly Quantized ZnSe Nanocrystals Deposited as Thin Films | The Journal of Physical Chemistry C
Materials | Free Full-Text | Tuning the Optical Band Gap of Semiconductor Nanocomposites—A Case Study with ZnS/Carbon
ZnSe (zinc-blende)
The effect of Mn-doped ZnSe passivation layer on the performance of CdS/CdSe quantum dot-sensitized solar cells
Band Gap Engineering of Zinc Selenide Thin Films Through Alloying with Cadmium Telluride | ACS Applied Materials & Interfaces
Design of a quantum well based on a ZnCdSe/ZnTe type II heterostructure confined type I within ZnSe barriers
Pritzker School of Molecular Engineering | The University of Chicago
Table 1 from Band-gap engineering of CdS, CdSe and ZnSe first-principles calculations | Semantic Scholar
Growth of crystalline WO3-ZnSe nanocomposites: an approach to optical, electrochemical, and catalytic properties | Scientific Reports
