未来显示技术不仅具有万亿级的经济规模,还反映了国家的区域创新能力和前沿技术竞争力。特别是超纯彩色发光量子点(QDs)是高清晰度(HD)、柔性和智能LED的关键材料。用于新一代LED的相对成熟的量子点系统,如II−VI(如CdSe、PbS)、III...
关键词:I-III-VI族纳米晶,无镉,组分工程,光致发光,电致发光 I-III-VI type NCs are considered as the ideal candidate to replace the Cd-based QDs due to the advantages of abundant sources, simple synthesis methods with high productivity, controllable emitting region from blue to near-infrared. By...
PEG修饰硅量子点(PEG-Si QDs) BSA修饰ZnO氧化锌量子点 ZnS-AgInS2荧光量子点QDs CdSeS三元合金量子点 三元I-III-VI半导体量子点CuAlS2 CuInS2三元I-III-VI半导体量子点 二元II-VI半导体量子点ZnSe CdSe二元II-VI半导体量子点 CsPbBr3钙钛矿量子点 Cs2AgBiBr6双钙钛矿量子点 CH3NH3PbBr3无机钙钛矿量子点 SiC碳化硅...
From the past few decades, I-III-VI QDs have gained tremendous interest. In comparison to binary II-VI or IV-VI QDs, these ternary QDs are less toxic, cadmium free, eco-friendly, possess excellent optical properties like II-VI QDs and exhibit high performance. The optical and electronic ...
Semiconductor nanocrystals smaller than 10 nm, known as quantum dots (QDs), exhibit optoelectronic properties that are dependent on their size due to the quantum size effect. Recently, QDs made of I-III-VI group multinary semiconductors, such as CuInS _2 and AgInS _2 , have attracted significa...
Multinary sulfide quantum dots (QDs) have exhibited outstanding advantages including large surface areas, unique optical properties and adjustable band gap... Dongqi Zhang,Baodong Mao,Di Li,... - 《Chemical Engineering Journal》 被引量: 0发表: 2020年 Advances in Colloidal I-III-VI2-Based Semico...
量子点( QDs)具有优异发光效率和高色纯度,是未来柔性超高清显示器、光学信息互联网和生物成像技术的重要前沿发光材料。南京理工大学Zhang Shuai、Zeng Haibo、弘益大学Heesun Yang综述研究了 I – III – VI 量子点及其衍生物在发光二极管应用中的设计、合成和性质。
(QDs)具有优异的发光效率和高的色纯度,是未来柔性超高清显示器、光学信息互联网和生物成像技术的重要前沿发光材料。I−III−VI量子点及其衍生物具有高效率、优异的稳定性和无毒等特点,因此有望成为取代传统Cd和Pb基量子点成为环保材料的理想候选者。此外,量子点发光二极管(QLED)在单色显示和白色照明方面表现出优越...
量子点(QDs)具有优异的发光效率和高的色纯度,是未来柔性超高清显示器、光学信息互联网和生物成像技术的重要前沿发光材料。I−III−VI量子点及其衍生物具有高效率、优异的稳定性和无毒等特点,因此有望成为取代传统Cd和Pb基量子点成为环保材料的理想候选者。此外,量子点发光二极管(QLED)在单色显示和白色照明方面表现...
I-III-VI type QDs have unique optoelectronic properties such as low toxicity, tunable bandgaps, large Stokes shifts and a long photoluminescence lifetime, and their emission range can be continuously tuned in the visible to near-infrared light region by changing their chemical compo...