HgTe colloidal quantum dot tripods for infrared photodetection

Shea Sanvordenker, Jungchul Noh, Jamie Howell, R. Pimpinella, B. Korgel
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Abstract

Mercury telluride (HgTe) nanocrystal quantum dot-based infrared photodetectors provide a low-cost alternative to mercury cadmium telluride (MCT) bulk alloy devices made through epitaxial growth methods. The size-tunable optical properties of HgTe colloidal quantum dots (CQDs) make it possible to synthetically target a range of absorption edge wavelengths encompassing the infrared region. In this work, we report the synthesis of HgTe CQDs with high aspect ratios using solution-based colloidal techniques. The radial diameter of the arms of tripodal HgTe CQDs can be adjusted between 3 and 7 nm, with corresponding decreases in aspect ratios (arm length/radial diameter) from six to two, respectively. Tripodal HgTe CQDs exhibit room temperature photoconductivity with optical response ranging from the short wavelength infrared (SWIR) to mid-wavelength infrared (MWIR) spectral region, with optical cutoffs increasing from 1.7 to 3.5 µm with increasing CQD arm diameter. These tripodal HgTe CQDs with high aspect ratios exhibit relatively strong photoconductivity response and are promising for CQD-based infrared photodetectors.
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用于红外光探测的胶体量子点三脚架
碲化汞(HgTe)纳米晶体量子点红外光电探测器为通过外延生长方法制造的碲化汞镉(MCT)体合金器件提供了一种低成本的替代方案。HgTe胶体量子点(CQDs)的尺寸可调光学特性使其能够综合瞄准包括红外区域在内的吸收边缘波长范围。在这项工作中,我们报告了使用基于溶液的胶体技术合成具有高纵横比的HgTe CQDs。三脚架HgTe cqd臂的径向直径可以在3 ~ 7 nm之间调节,臂长/径向直径的纵横比分别从6减小到2。三脚架HgTe CQD具有室温光导电性,光响应范围从短波红外(SWIR)到中波红外(MWIR)光谱区域,随着CQD臂直径的增加,光截止点从1.7µm增加到3.5µm。这些具有高纵横比的三脚架HgTe cqd具有相对较强的光电导率响应,有望用于基于cqd的红外光电探测器。
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