“…Elements doping is widely considered to be the most promising method. [20][21][22] New defect states induced by the elements doping ions will affect the band structure, electronic conductivity, and optical properties of the g-CuI scintillator, so they are very important for the scintillation properties of the g-CuI scintillator. Several dopants have been considered for doping the g-CuI scintillator, including metallic and nonmetallic elements.…”
Element doping can affect the electronic structure and optical properties of γ-CuI. First principles calculations show that Cs, F, Cl, and Br doping may enhance the detection performance of γ-CuI scintillators.
“…Elements doping is widely considered to be the most promising method. [20][21][22] New defect states induced by the elements doping ions will affect the band structure, electronic conductivity, and optical properties of the g-CuI scintillator, so they are very important for the scintillation properties of the g-CuI scintillator. Several dopants have been considered for doping the g-CuI scintillator, including metallic and nonmetallic elements.…”
Element doping can affect the electronic structure and optical properties of γ-CuI. First principles calculations show that Cs, F, Cl, and Br doping may enhance the detection performance of γ-CuI scintillators.
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