Related Products of 78-50-2. The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: Tri-n-octylphosphine Oxide, is researched, Molecular C24H51OP, CAS is 78-50-2, about Quantitative Electrochemical Control over Optical Gain in Quantum-Dot Solids. Author is Geuchies, Jaco J.; Brynjarsson, Baldur; Grimaldi, Gianluca; Gudjonsdottir, Solrun; van der Stam, Ward; Evers, Wiel H.; Houtepen, Arjan J..
Solution-processed quantum dot (QD) lasers are one of the holy grails of nanoscience. They are not yet commercialized because the lasing threshold is too high: one needs >1 exciton per QD, which is difficult to achieve because of fast nonradiative Auger recombination. The threshold can, however, be reduced by electronic doping of the QDs, which decreases the absorption near the band-edge, such that the stimulated emission (SE) can easily outcompete absorption. Here, by electrochem. doping films of CdSe/CdS/ZnS QDs, the authors achieve quant. control over the gain threshold. The authors obtain stable and reversible doping of more than two electrons per QD. The authors quantify the gain threshold and the charge carrier dynamics using ultrafast spectroelectrochem. and achieve quant. agreement between experiments and theory, including a vanishingly low gain threshold for doubly doped QDs. Over a range of wavelengths with appreciable gain coefficients, the gain thresholds reach record-low values of ~1 × 10-5 excitons per QD. These results demonstrate a high level of control over the gain threshold in doped QD solids, opening a new route for the creation of cheap, solution-processable, low-threshold QD lasers.
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Reference:
Chapter 1 An introduction to palladium catalysis,
Palladium/carbon catalyst regeneration and mechanical application method