Figure 4 from Bandgap-graded CdS(x)Se(1-x) nanowires for high-performance field-effect transistors and solar cells. | Semantic Scholar
Tailoring band structure of ternary CdSxSe1−x quantum dots for highly efficient sensitized solar cells - ScienceDirect
mp-1070: CdSe (hexagonal, P6_3mc, 186)
Enhancement of band-edge emission induced by defect transition in the composite of ZnO nanorods and CdSe/ZnS quantum dots
Photoconductivity of composites based on CdSe quantum dots and low-band-gap polymers - ScienceDirect
Electronic band structure of the ordered Zn0.5Cd0.5Se alloy calculated by the semi-empirical tight-binding method considering second-nearest neighbor
Theoretical comparison of the energies and wave functions of the electron and hole states between CdSe- and InP-based core/shell/shell quantum dots: effect of the bandgap energy of the core material on the
Finite size and length effects on bandgap of CdSe nanorods - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/C6CP08794A
Band structure engineering via piezoelectric fields in strained anisotropic CdSe/CdS nanocrystals | Nature Communications
Band gap of CdSe at RT. | Download Scientific Diagram
Figure 5 | The CdS/CdSe/ZnS Photoanode Cosensitized Solar Cells Basedon Pt, CuS, Cu2S, and PbS Counter Electrodes
Determination of Band Structure Parameters and the Quasi‐Particle Gap of CdSe Quantum Dots by Cyclic Voltammetry - Inamdar - 2008 - ChemPhysChem - Wiley Online Library
Optical Characteristics of ZnS Passivated CdSe/CdS Quantum Dots for High Photostability and Lasing | Scientific Reports
Direct Spectroscopic Evidence of Ultrafast Electron Transfer from a Low Band Gap Polymer to CdSe Quantum Dots in Hybrid Photovoltaic Thin Films,Journal of the American Chemical Society - X-MOL
CdSe/CdS band structure. (a) Plot of the overall band structure along... | Download Scientific Diagram
Photoinduced electron transfer in novel CdSe–Cu 2 Se type II core–shell quantum dots - RSC Advances (RSC Publishing) DOI:10.1039/C9RA02027F
![PDF] HARVESTING LIGHT ENERGY WITH CdSe/ CdSe (SILAR) /ZnS (SILAR) NANOCRYSTALS MOLECULARLY LINKED TO MESOSCOPIC TiO 2 FILMS FOR QUANTUM DOT SOLAR CELLS | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/21c795644b0aebb5b366bc972339d7c2607b2575/4-Figure7-1.png "PDF] HARVESTING LIGHT ENERGY WITH CdSe/ CdSe (SILAR) /ZnS (SILAR) NANOCRYSTALS MOLECULARLY LINKED TO MESOSCOPIC TiO 2 FILMS FOR QUANTUM DOT SOLAR CELLS | Semantic Scholar")
PDF] HARVESTING LIGHT ENERGY WITH CdSe/ CdSe (SILAR) /ZnS (SILAR) NANOCRYSTALS MOLECULARLY LINKED TO MESOSCOPIC TiO 2 FILMS FOR QUANTUM DOT SOLAR CELLS | Semantic Scholar
Boltzmann equations and ab initio calculations: comparative study of cubic and wurtzite CdSe | SpringerLink
CdSe Quantum Dots - Michael C. Hughes
Band gap energies and relative band offsets for CdTe, CdSe and ZnSe. 16,17 | Download Scientific Diagram
First-principles study of the band gap tuning and doping control in CdSe<sub><em>x</em></sub>Te<sub>1−<em>x</em></sub> alloy for high efficiency solar cell
Frontiers | Bandgap Engineering of Indium Phosphide-Based Core/Shell Heterostructures Through Shell Composition and Thickness | Chemistry
presents the band-edge positions and bandgaps of bulk CdSe, CdTe and... | Download Scientific Diagram
