在芴与dbt的共聚物中,观察到了由于激子在低带隙单体DBT位置的捕获而产生的有效的能量转移。
In the copolymers of fluorene and DBT, the efficient energy transfer due to exciton trapping on narrow band-gap DBT sites has been observed.
捕获高于半导体带隙的光子的能量会导致太阳能电池的效率超过传统的效率极限。
Harvesting excess energy from above-bandgap photons could lead to solar cells which exceed conventional efficiency limits.
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