并预期在制备太阳电池时,它可能代替硅,而成为今后主要的光伏半导体材料。
Then expect that the pyrite is a possible substitute of the Silicon as the cardinal photovoltaic semiconductor material to prepare for the solar cell.
结合太阳电池理论和半导体材料的电子辐照效应给出了合理的解释。
This result has been explained properly by combined with theories of solar cell and electron irradiation effect of semiconductor.
该文提出一种太阳能半导体冰箱并进行了实验研究与性能分析,它依靠太阳电池驱动,通过热电制冷效应制冷。
Experimental investigation and performance analysis on a solar cell driven, thermoelectric refrigerator was conducted. Research interest focused on testing the system performance under sunshine.
光敏染料吸收光能并且将激发态电子注入半导体导带中,从而实现光伏转换,是染料敏化太阳电池中的重要组成部分。
The sensitizer, which captures the sunlight and transfer electron from its oxidation state to the conduction band of anode, is a crucial segment in DSSCs.
光敏染料吸收光能并且将激发态电子注入半导体导带中,从而实现光伏转换,是染料敏化太阳电池中的重要组成部分。
The sensitizer, which captures the sunlight and transfer electron from its oxidation state to the conduction band of anode, is a crucial segment in DSSCs.
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