Hybrid Quantum Dot LEDs (Indium Phosphide/Zinc Sulphide-PEG-COOH Quantum Dots)
Product: Hybrid Quantum Dot LEDs
We provide high quality Hybrid Quantum Dot LEDs (GA) ZnSe/ZnS, CdS/ZnS, CdSe/ZnS, InP/ZnS, InP/ZnS,and PbS QDs.
|Product Name||Indium Phosphide/Zinc Sulphide-PEG-COOH Quantum Dots|
|Application||Bio-Conjugation with Bio-Molecules|
|Main Inspect Verifier||Manager QC|
Dr. Ms. Kamiko Chang, Ph.D(University of Science and Technology Beijing, China)
Hybrid Quantum Dot LEDs (QDLEDs) combine the color purity and durability of QDs with the efficiency, flexibility, and low processing cost of organic light-emitting devices (OLEDs). Previous efforts to create efficient QD-LEDs demonstrated red, green, and blue (RGB) devices with external quantum efficiencies (EQEs)
Dr. Nicholaos G. Demas (Newcastle University School Of Machanical & Systems Engg. UK)
Hybrid Quantum Dot LEDs can be tuned across much of the visible spectrum by changing the size of the QDs while preserving a spectral full width at half maximum (FWHM) as narrow as 30 nm and photoluminescence efficiency of 50%. Organic capping groups, surrounding the QD lumophores, facilitate processing in organic solvents and their incorporation into organic thin film light-emitting device (LED) structures.
Dr. Bruce Perrault, Ph.D (Georgia Institute of Technology (Georgia Tech), USA)
Hybrid Quantum Dot LEDs are nanocrystals that are smaller in size than the diameter of a Bohr exciton in a bulk crystal of the same material. By reducing the size of the nanocrystal core, the quantum confinement of the QD electron, hole, and exciton is increased, with a consequent increase in the exciton energy. In CdSe nanocrystals, quantum confinement increases the exciton energy.
Dr. Huojin Chan (University of Science and Technology of China, Hefei, Anhui, China)
Hybrid Quantum Dot LEDs This thesis presents a novel method for fabricating Quantum Dot Hybrid LED based on colloidal inorganic light-emitting nanoparticles incorporated into an organic semiconductor matrix. CdSe core/ZnS shell nanoparticles were inkjet-printed in air and sandwiched between organic hole and electron transport layers to produce efficient photonemissive media.
Dr. Darren Chandler, Ph.D(Manchester Metropolitan University, U.K)
Hybrid Quantum Dot LEDs have been proposed for the development of low-temperature solution-processed quantum-dot devices, including next-generation photovoltaics, photodetectors and lightemitting diodes (LEDs). In particular, the development of high-power, efficient and low-cost infrared LEDs will further progress in applications such as night vision, optical communications and sensing. Early efforts to exploit quantum dots in LEDs were based on hybrid device structures in which the quantum dots were interfaced with conjugated polymers.
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METAL NANOPOWDERS, COMPOUND NANOPOWDERS, OXIDE NANOPOWDERS, ALLOY NANOPOWDERS, CLAY NANOPOWDERS, GRAPHENE NANOPOWDERS, METAL NANOWIRES & NANORODS, DOPED NANOPOWDERS, SINGLE WALL CNT, MULTI WALL CNT, DOUBLE WALL CNT, FUNCTIONALIZED SWCNT, FUNCTIONALIZED MWCNT, INDUSTRIAL MWCNT, CARBON NANOTUBE ARRAY, METAL NANO DISPERSIONS, OXIDE NANO DISPERSIONS, CNT GRAPHENE DISPERSION, BIO NANO CONJUGATE SERVISES, POSS, CORE SHELL NANOPARTICLES, ZnSE/ZnS QUANTUM DOTS, InP/ZnS QUANTUM DOTS, CdS/ZnS QUANTUM DOTS, CdSe/ZnS QUANTUM DOTS, UPCONVERTING NANOPARTICLES, PbS QUANTUM DOTS