Enhanced photoluminescence quantum yield of red‐emitting CdTe:Gd³⁺ QDs for WLEDs applications

Abstract: In order to improve the quantum yield of red‐emitting CdTe quantum dots (QDs), CdTe:Gd3+ QDs were synthesized by a facile one‐step aqueous method. The composition, morphology, and photoluminescence property of CdTe:Gd3+ QDs were characterized. The results show that the doping of Gd3+ not only leads to a red‐shift in the emission wavelength but also improves the photoluminescence quantum yield (PL QY) of CdTe QDs up to 85.74%. Doping of Gd element causes the Te dangling bond on the surface of CdTe QDs to be des… Show more

“…At present, it has been reported that CdTe QDs are dispersed in organic or inorganic substrates, such as PVA, 13 NaCl, 14 CaCO 3 15 and BaSO 4, 16 to prepare high‐emitting solid quantum dot phosphors. The CdTe QDs‐based solid‐state composites can be used as converted phosphors for LED and indoor plant growth application 17,18 . In our previous work, we developed a simple precipitation method that allows us to obtain large‐scale NaNO 3 19 and CaCO 3 20 composite powders based on CdTe QDs.…”

Bright solid‐state luminescence of green‐red tunable CdTe@BaCO₃ composite: Synthesis and properties

“…At present, it has been reported that CdTe QDs are dispersed in organic or inorganic substrates, such as PVA, 13 NaCl, 14 CaCO 3 15 and BaSO 4, 16 to prepare high‐emitting solid quantum dot phosphors. The CdTe QDs‐based solid‐state composites can be used as converted phosphors for LED and indoor plant growth application 17,18 . In our previous work, we developed a simple precipitation method that allows us to obtain large‐scale NaNO 3 19 and CaCO 3 20 composite powders based on CdTe QDs.…”

Bright solid‐state luminescence of green‐red tunable CdTe@BaCO₃ composite: Synthesis and properties

Energy-transfer-induced enhancement of Mn2+-based narrow-band green emission in Sr2(Mg,Mn)Al22O36 phosphor by Eu2+ alloying

A cyan-emitting phosphor Ca3SiO4(Cl,Br)2:Eu2+ with high efficiency and good thermal stability for full-visible-spectrum LED lighting