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Strain-induced spatially indirect exciton recombination in zinc-blende/wurtzite CdS heterostructures 被引量:1
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作者 Dehui Li Yang Liu +4 位作者 Maria de la Mata Cesar Magen Jordi Arbiol Yuanping Feng Qihua Xiong 《Nano Research》 SCIE EI CAS CSCD 2015年第9期3035-3044,共10页
Strain engineering provides an effective mean of tuning the fundamental properties of semiconductors for electric and optoelectronic applications. Here we report on how the applied strain changes the emission properti... Strain engineering provides an effective mean of tuning the fundamental properties of semiconductors for electric and optoelectronic applications. Here we report on how the applied strain changes the emission properties of hetero- structures consisting of different crystalline phases in the same CdS nanobelts. The strained portion was found to produce an additional emission peak on the low-energy side that was blueshifted with increasing strain. Furthermore, the additional emission peak obeyed the Varshni equation with temperature and exhibited the band-filling effect at high excitation power. This new emission peak may be attributed to spatially indirect exciton recombination between different crystalline phases of CdS. First-principles calculations were performed based on the spatially indirect exciton recombination, and the calculated and experimental results agreed with one another. Strain proved to be capable of enhancing the anti-Stokes emission, suggesting that the efficiency of laser cooling may be improved by strain engineering. 展开更多
关键词 strain CdS nanobelts photoluminescence spatially indirect excitonrecombination inter-crystalline PHASETRANSITION
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