在这项工作中,多伦多小组的高效胶体量子点太阳能电池的效率,领先世界水平5.6个百分点。
The work expands the Toronto team's world-leading 5.6 per cent efficient colloidal quantum dot solar cells.
通过捕捉这样广泛的光波范围-比普通太阳能电池更广泛-串联胶体量子点太阳能电池原则上可以达到42%的效率。
By capturing such a broad range of light waves — wider than normal solar cells — tandem CQD solar cells can in principle reach up to 42 per cent efficiencies.
该小组率先使用胶体量子点制作太阳能电池,一种能够容易调整,对可见及不可见光谱中特定波长进行反应的纳米材料。
The team pioneered solar cells made using CQD, nanoscale materials that can readily be tuned to respond to specific wavelengths of the visible and invisible spectrum.
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