Articles you may be interested inTunable emission in surface passivated Mn-ZnS nanophosphors and its application for Glucose sensing AIP Advances 2, 012183 (2012); 10.1063/1.3698310Temperature and pressure behavior of the emission bands from Mn-, Cu-, and Eu-doped ZnS nanocrystalsWe prepared manganese and europium co-doped zinc sulfide (ZnS:Mn,Eu) phosphors and used them for radiation detection. In addition to the red fluorescence at 583 nm due to the d-d transition of Mn ions, an intense violet emission at 420 nm is newly observed in ZnS:Mn,Eu phosphors. The emission is related to Eu 2þ doping but only appears at certain Eu 2þ concentrations. It is found that the intensity of the 420 nm violet fluorescence is X-ray does-dependent, while the red fluorescence of 583 nm is not. The ratio of fluorescence intensities at 420 nm and 583 nm has been monitored as a function of X-ray doses that exposed upon the ZnS:Mn,Eu phosphors. Empirical formulas are provided to estimate the doses of applied X-ray irradiation. Finally, possible mechanisms of X-ray irradiation induced fluorescence quenching are discussed. The intense 420 nm emission not only provides a violet light for solid state lighting but also offers a very sensitive method for radiation detection. V C 2014 AIP Publishing LLC. [http://dx.
For take fully advantage of solar energy, the blue light conversion agent Ca0.6Sr0.4F2:Eu2+,Sm3+and the red light conversion agent CaS:Eu2+ were prepared in this paper. X-ray power diffraction (XRD) analysisconfirmed the phase formationof these light conversion agents.The luminescence intensity influencedby theconcentration of rare-earth-doped was discussed.Measuring results revealed thatthe blue and red agents canabsorb 375nm, 570nm radiations and emit 435nm, 640nmlight, respectively.The emitting spectra of them are matchedwith the absorption spectrum of chlorophyll. Light conversion film was prepared by introducing light conversion agents into polyethylene (PE). The trials of vegetables plantingin greenhouses that covered by conversion filmsindicate thatconversion films are able to enhance the availability of solar energy, and accelerate the ripening of vegetables, increase yield higher than 19.8%.
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