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铅卤钙钛矿材料由于其优异的光致和电致发光性能,如大的吸收系数、高的载流子迁移率和发光量子产率等,在太阳能电池、发光二极管等领域具有重要的应用前景。然而,铅的毒性及较差的物化及光稳定性限制了其实际应用。为了降低毒性及改善发光性能,无铅金属卤化物得到了广泛的研究,但他们通常在紫外区域有强的吸收,很难被商用蓝光芯片激发,从而限制了其在WLEDs的发光效率与应用。因此我们基于广西的丰富锰资源, 开展锰基钙...
Atomistic Calculations Predict That Boron Incorporation Increases The Efficiency Of Leds(图)
Atomistic Calculations Predict Boron Incorporation Increases Leds
2017/12/18
High-power white LEDs face the same problem that Michigan Stadium faces on game day — too many people in too small of a space. Of course, there are no people inside of an LED. But there are many elect...
Scientists build thinnest-possible LEDs to be stronger, more energy efficient(图)
thinnest-possible led more energy efficient
2014/3/20
Most modern electronics, from flat-screen TVs and smartphones to wearable technologies and computer monitors, use tiny light-emitting diodes, or LEDs. These LEDs are based off of semiconductors that e...
Spectral spatial coherence of high-power multi-chip LEDs
Spectral spatial coherence high-power multi-chip LEDs
2013/7/3
We investigate the spatial coherence of the light generated from high-power multi-chip red LEDs by using the van Cittert-Zernike theorem. It is theoretically demonstrated that the light generated from...
A team of researchers in the US has developed a new technique to shrink the size of inorganic LEDs so they can be used as pixels in display screens. The novel process could allow these tiny light sour...
In the pursuit of environmentally-friendly lighting, organic LEDs have long been touted as an attractive option. They could be significantly more efficient than conventional lighting and unlike fluore...