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P140917-10mgPbS QDs have large Bohr radius with strong quantum effect. Due to its excellent nonlinear optical property, suitable forbidden band width, electronic energy band across 900~1600 nm infrared wavelength range that overlap with “communication
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P140917-50mgPbS QDs have large Bohr radius with strong quantum effect. Due to its excellent nonlinear optical property, suitable forbidden band width, electronic energy band across 900~1600 nm infrared wavelength range that overlap with “communication
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P140918-10mgPbS QDs have large Bohr radius with strong quantum effect. Due to its excellent nonlinear optical property, suitable forbidden band width, electronic energy band across 900~1600 nm infrared wavelength range that overlap with “communication
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P140918-50mgPbS QDs have large Bohr radius with strong quantum effect. Due to its excellent nonlinear optical property, suitable forbidden band width, electronic energy band across 900~1600 nm infrared wavelength range that overlap with “communication
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P615574-10mgPbS QDs have large Bohr radius with strong quantum effect. Due to its excellent nonlinear optical property, suitable forbidden band width, electronic energy band across 900~1600 nm infrared wavelength range that overlap with “communication
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P615574-50mgPbS QDs have large Bohr radius with strong quantum effect. Due to its excellent nonlinear optical property, suitable forbidden band width, electronic energy band across 900~1600 nm infrared wavelength range that overlap with “communication
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Z140312-25mlZnSe quantum dot is a new type of environmentally friendly green" semiconductor nanomaterial. As an broadband gap semiconductor material, ZnSe is an important material to make blue-green?light-emitting?semiconductor. Synthesized using our"
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Z140312-5mlZnSe quantum dot is a new type of environmentally friendly green" semiconductor nanomaterial. As an broadband gap semiconductor material, ZnSe is an important material to make blue-green?light-emitting?semiconductor. Synthesized using our"