碳基完全可打印自供电紫外钙钛矿光电探测器:锰辅助电子转移和增强光电流

IF 3.1 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nanomaterials and Nanotechnology Pub Date : 2020-07-30 DOI:10.1177/1847980420925674

Shuhong Xu, Guangguang Huang, Chunlei Wang, Haibao Shao, Yiping Cui

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引用次数: 4

摘要

在本研究中，我们通过在CsPbCl3钙钛矿纳米晶光采集器中掺杂锰来改善自供电紫外光电探测器的光电流。纳米晶体中掺杂的锰具有以下三个特征，有助于电子从CsPbCl3纳米晶体转移到二氧化钛:(1)快速的激子到锰的能量转移过程有利于与钙钛矿激子复合竞争电子;(2)锰d态的自旋和轨道禁止跃迁使得载流子寿命非常长;(3)由于能量势垒较小，电子可以有效地从锰d态的4T1转移到二氧化钛层。在此基础上，光电探测器的自供电光电流密度从0.08 mA·cm−2提高到0.14 mA·cm−2，提高了近两倍，在340 nm处的响应率高达7.3 mA·W−1。

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Carbon-based fully printable self-powered ultraviolet perovskite photodetector: Manganese-assisted electron transfer and enhanced photocurrent

In this work, we improved the photocurrent of self-powered ultraviolet photodetector via doping manganese in CsPbCl3 perovskite nanocrystals light harvester. The doped manganese in nanocrystals has the following three features to assist electron transfer from CsPbCl3 nanocrystals to titanium dioxide: (i) the fast exciton-to-manganese energy transfer process benefits for competing electrons with perovskite exciton recombination, (ii) the charge carrier lifetime is very long for manganese d-states due to its spin and orbital forbidden transition, and (iii) the electrons can effectively transfer to the titanium dioxide layer from 4T1 of manganese d-states due to the smaller energy barrier. Based on the above, the self-powered photocurrent density of photodetectors has nearly twice enhancement from 0.08 mA·cm−2 to 0.14 mA·cm−2 and a high responsivity up to 7.3 mA·W−1 was achieved at 340 nm.

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来源期刊

Nanomaterials and Nanotechnology NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

7.20

自引率

21.60%

发文量

审稿时长

15 weeks

期刊介绍： Nanomaterials and Nanotechnology is a JCR ranked, peer-reviewed open access journal addressed to a cross-disciplinary readership including scientists, researchers and professionals in both academia and industry with an interest in nanoscience and nanotechnology. The scope comprises (but is not limited to) the fundamental aspects and applications of nanoscience and nanotechnology