Quantum Dot Electroluminescence (Indium Phosphide/Zinc Sulphide-PEG-NH₂ Quantum Dots)
Product: Quantum Dot Electroluminescence
We provide high quality Quantum Dot Electroluminescence (GA) ZnSe/ZnS, CdS/ZnS, CdSe/ZnS, InP/ZnS, InP/ZnS,and PbS QDs.
|Product Name||Indium Phosphide/Zinc Sulphide-PEG-NH₂ 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)
Quantum Dot Electroluminescence 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.
Dr. Nicholaos G. Demas (Newcastle University School Of Machanical & Systems Engg. UK)
Quantum Dot Electroluminescence is the choice of organic charge transporting layers that surround the QD luminescent centers. In an archetypical QD-LED structure electrons are injected from a metallic cathode into an electron-transporting layer (ETL), holes are injected from a transparent anode into a hole-transporting layer (HTL); carriers then travel toward the layer of QDs.
Dr. Bruce Perrault, Ph.D (Georgia Institute of Technology (Georgia Tech), USA)
Quantum Dot Electroluminescence have been recently focused much by the scientist for their potential for low-cost manufacturing, large-area and flexible device structures, high photochemical and thermal stabilities, as well as energy-efficient operation. There are very few reports on Quantum Dot Electroluminescence with efficient white. At present, it is very difficult to obtain high-performance white QD-LEDs only by mixing blue-, green-, and red-emitting QDs as white emissive layer due to the low efficiency for the blue QDs.
Dr. Huojin Chan (University of Science and Technology of China, Hefei, Anhui, China)
We designed and fabricated Quantum Dot Electroluminescence containing a bilayer of non-toxic colloidal Si QDs and polymer in the device as active region. White electroluminescence was obtained in the LEDs by mixing the broad red-emission of Si QD and the blue-green emission of poly-TPD. Quantum Dot Electroluminescence mixing multicolor emitters into a composite active region in early white QD-LEDs, the design of bilayered active region physically separates the blue green- emitting molecules from the redemitting QDs except at the interface.
Dr. Darren Chandler, Ph.D(Manchester Metropolitan University, U.K)
Quantum Dot Electroluminescence fabrication has been dedicated to electroluminescence (EL) performance improvement of monochromatic device. However, from a standpoint of practical application of QLEDs to general illumination and display, multicolored white EL should be pursued. Kim et al. demonstrated the fabrication of a full-color white QLED as a display device, where red, green, and blue VI QD emitting layers (EMLs) were sequentially patterned by a solvent-free transfer printing.
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ZnSe/ZnS QDs WATER SOLUBLE, InP ZnS QDs SURFACE MODIFIED, CdS/ZnS QDs H2O SOLUBLE, PbS QDs SURFACE MODIFIED, ARSENIDES, LANTHANIDE NANOMATERIALS, TRANSITION METAL NANOMATERIALS, SPECIALITY CHEMICALS, MAGNETIC NANOPARTICLES, CUSTOM SYENTHESIS, METALIC FOAMS, SCREEN PRINTED BIO SENSOR, LITHIUM ION BATTERY MATERIAL, ITO COATED GLASS, POLYMERS NANO MATERIAL, NANO FABRIC COATINGS, METAL FOILS, PELLETS CHIPS METAL BALLS, WAFERS & TARGETS, SPUTTERING TARGETS, SINGLE CRYSTAL SUBSTRATES, PYROLITIC GRAPHITE, PROTECTIVE EQUIPMENTS, METAL CRUCIBLES, ALUMINA CERAMIC TILES, INORGANIC COMPOUNDS