![SciELO - Brasil - Pseudopotential Study of CdTe Quantum Dots: Electronic and Optical Properties Pseudopotential Study of CdTe Quantum Dots: Electronic and Optical Properties SciELO - Brasil - Pseudopotential Study of CdTe Quantum Dots: Electronic and Optical Properties Pseudopotential Study of CdTe Quantum Dots: Electronic and Optical Properties](https://minio.scielo.br/documentstore/1980-5373/35CFph5fkk5Nfz5DYk6wPGH/a8292f6091d263487f6173f65483870be9fa9398.jpg)
SciELO - Brasil - Pseudopotential Study of CdTe Quantum Dots: Electronic and Optical Properties Pseudopotential Study of CdTe Quantum Dots: Electronic and Optical Properties
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First-principles analysis for the modulation of energy band gap and optical characteristics in HgTe/CdTe superlattices - RSC Advances (RSC Publishing) DOI:10.1039/C8RA10101A
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First-principles insights into the electronic structure, optical and band alignment properties of earth-abundant Cu2SrSnS4 solar absorber | Scientific Reports
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Band diagrams and performance of CdTe solar cells with a Sb2Te3 back contact buffer layer: AIP Advances: Vol 1, No 4
Electron-hole generation in solar cell pn junction. When studying Si cells, if the photon has an energy higher than that of the band gap the electron gets excited. But what in a
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Figure 3. Schematic representation of the size-dependent band gap : Quantum Dots, Part 1: Optical and Electrochemical Properties of CdTe Quantum Dots : Science and Education Publishing
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The energy band gap graph of samples (a) (Bi 2 Te 3 ) 25 (CdTe) 75 ,... | Download Scientific Diagram
Enhancing CdTe Solar Cell Performance by Reducing the “Ideal” Bandgap of CdTe through CdTe1-xSex Alloying Jingxiu Yang 1,2 a
Electron-hole generation in solar cell pn junction. When studying Si cells, if the photon has an energy higher than that of the band gap the electron gets excited. But what in a
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Plots of the energy band of Cadmium telluride (a) with relativistic... | Download Scientific Diagram
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The energy band gap of CdTe as a function of temperature. Solid squares... | Download Scientific Diagram
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Figure 2 from 15.3% efficient graded bandgap solar cells fabricated using electroplated CdS and CdTe thin films | Semantic Scholar
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