The researchers began by making samples of one or two monolayers of PbSe quantum dots deposited on flat single-crystalline TiO2.
研究人员首先在单晶体 TiO2平面上制作一层或两层的单分子硒化铅量子点。
The lack of vibrational properties of the lead salts motivated us to carry out the current Raman spectra study of PbSe and PbTe.
随后介绍了拉曼散射的基本原理及其重要的选择定则,同时简述了铅盐矿半导体拉曼光谱研究的历史与现状。
The team found that the electrons can be transferred from photo-excited lead selenide (PbSe) crystals to an adjacent electronic conductor made of titanium dioxide.
该小组发现电子可以从光敏的硒化铅晶体传导到相连的二氧化钛电导体。
They found that these states were always below the TiO2 conduction band, which means that hot electrons from the quantum dot can transfer from the PbSe to the TiO2.
他们发现这些能级皆低于TiO2的传导带,这意味着从量子点放射出的热电子能够从PbSe传导到TiO2。
In this paper, the selection of electrode materials for PbSe photoconductive infrared detectors is mainly described, as well as its electrode fabrication processing.
本文主要介绍硒化铅光导型多元红外探测器的电极材料选择和电极的制备工艺。
In this paper, the selection of electrode materials for PbSe photoconductive infrared detectors is mainly described, as well as its electrode fabrication processing.
本文主要介绍硒化铅光导型多元红外探测器的电极材料选择和电极的制备工艺。
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