Intraband transition in self-doped narrow band gap colloidal quantum dots

机译：在自掺杂窄带隙胶体量子点中的内在转换

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In this article we discuss the infrared properties of self-doped nanocrystals and in particular the case of HgSe. HgSe colloidal quantum dots have recently been reported for their tunable optical features all over the mid infrared from 3 to 20 μm. Their optical absorption is a combination of interband absorption at high energy and intraband absorption at low energy. The latter results from the self-doped character of HgSe. The origin of this self-doping is also discussed. We demonstrated that the doping results from the combination of the narrow band gap and high work function of HgSe, which leads to a reduction of the CQD by the water in the environment. In addition, we demonstrated that the doping density can be tuned over an order of magnitude thanks to the control of the capping ligands.

机译：在本文中，我们讨论了自掺杂纳米晶体的红外特性，特别是HGSE的情况。最近据报道了HGSE胶体量子点的可调谐光学特征在于3至20μm的中红外线。它们的光学吸收是在低能量下高能量和内在吸收时的间带吸收的组合。后一种结果来自HGSE的自掺杂特征。还讨论了这种自我掺杂的起源。我们证明了掺杂结果来自窄带隙和Hgse的高功函数的组合，这导致环境中的水减少了CQD。此外，我们证明，由于覆盖配体的控制，可以通过幅度上调掺杂密度。

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《Conference on Quantum Sensing and Nano Electronics and Photonics XIV》|2017年|v. p.|共7页
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Bertille Martinez; Clement Livache; Adrien Robin; Herve Cruguel; Sebastien Royer; Xiang Zhen Xu; Herve Aubin; Sandrine Ithurria; Emmanuel Lhuillier;
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中图分类 TP212;
关键词
nanocrystal; narrow band gap; mid-infrared; self-doping;

机译：纳米晶;窄带隙;中红外;自掺杂;

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Intraband transition in self-doped narrow band gap colloidal quantum dots

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