期刊
ADVANCED FUNCTIONAL MATERIALS
卷 28, 期 19, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.201707311
关键词
CIGS heterojunctions; flexible photodetectors; piezophototronic sensors; piezotronic effects; ZnO nanowires
类别
资金
- National Nature Science Foundation of China [51372064, 11704094, 11504076, 51622205, 61675027, 51432005, 61505010]
- Nature Science Foundation of Hebei Province [E2017201227, F2017201141, F2018201198]
- Science and technology research project of Hebei Province higher education institution [ZD2016036]
- NatureScience Foundation for Distinguished Young Scholars of Hebei University [2015JQ03]
- Scientific Research Foundation for the Returned Overseas Chinese Scholars [CG2015003004]
- Beijing Natural Science Foundation [4181004]
- national key R D project [2016YFA0202703]
- Thousand Talents program of China for pioneering researchers and innovative teams
- Second Batch of Young Talents of Hebei Province
The Cu(In, Ga)Se-2 (CIGS) heterojunction, as a mature and high efficiency thin-film solar cell, is rarely studied as a photodetector, especially in flexible substrates. In this paper, the structure of an ITO/ZnO/CdS/CIGS/Mo heterojunction is grown on the polyimide (PI) substrate to form a flexible CIGS heterojunction photodetector. The photodetector can work in a very wide band ranging from 350 to 1200 nm with responsivity up to 1.18 A W-1 (808 nm), detectivity up to 6.56 x 10(10) Jones (cmHz(1/2) W-1), and response time of 70 (/88) ms, respectively. Moreover, the piezophototronic effect is first used to investigate performance modulation of this device by effectively controlling the separation and transport of carriers at the interface of CdS/ZnO. Interestingly, by externally applying a 0.763% tensile strain, the photoresponsivity and detectivity of the photodetector exhibit a decrease from 1.18 to 0.88 A W-1, and from 6.56 x 10(10) to 4.81 x 10(10) Jones, respectively, while under a -0.749% externally static compressive strain, the photoresponsivity could be enhanced by approximate to 75.4% with a maximum of 2.07 A W-1, and the detectivity is improved by approximate to 66.1% with its peak value up to 10.9 x 10(10) Jones. Meanwhile, the response time can be modulated from 99(/116) to 41.3(/42.6) ms. This work suggests that the CIGS heterojunction has great potential in novel applications for piezophototronic sensors and also gives a hint to modulate the performance of other multilayer heterostructures via the piezotronic effect.
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