他们在二氧化钛奈米管中添加碳,将可吸收的光波长范围转换成可见光波段。
They have added carbon to titanium dioxide nanotubes to shift the wavelengths of light the tubes absorb to the visible portion of the spectrum.
本研究以电浆电弧为加热源蒸发钨靶材,并藉由气凝合成机制,外加一套吹气装置制备氧化钨奈米棒,分别探讨腔体压力与奈米棒平均直径及产率的关系。
In the present study, tungsten oxide nanorods were prepared by a plasma arc gas condensation technique where a gas nozzle was introduced to provide blowing gas.
因此,氧化铟锡一维奈米结构有很大的潜力应用于光电元件系统。
Therefore, ITO nanowires may have potential applications for optoelectronic devices system.
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