To Change Transport Gap Of Semiconducting Nanoparticles Without Disturbing The Optical One: Core-shell Approach

Bikas C. Das; Amlan J. Pal

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To Change Transport Gap Of Semiconducting Nanoparticles Without Disturbing The Optical One: Core-shell Approach

机译：改变半导体纳米粒子的传输间隙而又不影响光学一：核壳法

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We show that transport gap of semiconducting nanoparticles can be changed without disturbing the optical gap. This is achieved through inorganic-organic hybrid core-shell approach. Different inorganic nanoparticles with a bandgap in the UV to NIR range are used as the core; as a shell to the nanoparticles, a monolayer of different organic molecules is used. With the inclusion of the shell layer, optical gap of the nanoparticles does not change. Transport gap, as obtained from current-voltage characteristics of a single nanoparticle with scanning tunneling microscope tip, changes to that of the shell-material irrespective of the bandgap of core nanoparticles.

机译：我们表明，可以改变半导体纳米粒子的传输间隙而不会干扰光学间隙。这是通过无机-有机混合核-壳方法实现的。带隙在UV到NIR范围内的不同无机纳米粒子被用作核心。作为纳米颗粒的壳，使用了不同有机分子的单层。通过包含壳层，纳米颗粒的光学间隙不会改变。从单个纳米粒子的电流-电压特性通过扫描隧道显微镜尖端获得的传输间隙，无论核心纳米粒子的带隙如何，都会改变为壳材料的传输间隙。

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《Applied Physicsletters》 |2009年第8期|123-125|共3页
作者
Bikas C. Das; Amlan J. Pal;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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To Change Transport Gap Of Semiconducting Nanoparticles Without Disturbing The Optical One: Core-shell Approach

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