Engineering the carrier dynamics of g-C3N4 by rolling up planar sheets into nanotubes via ultrasonic cavitation

Gan Zhixing; Liu Lizhe; Pan PengfeiLin YawenShen JiancangJia Baohua

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Engineering the carrier dynamics of g-C3N4 by rolling up planar sheets into nanotubes via ultrasonic cavitation

机译：工程g-C3N4的航空动力学卷起平面表成纳米管通过超声空化

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Rolling up 2D atomic layered materials into 1D nanotubes gives rise to fascinating properties due to their lower dimension, higher anisotropy, and strain effects. In this work, the curving of 2D graphitic C3N4 (g-C3N4) sheets into 1D nanotubes is demonstrated for the first time through simple and clean ultrasonic treatments. The steady-state optical transitions are slightly enhanced while the localized trapping of excited carriers is considerably suppressed after rolling up the planar sheets into nanotubes. The mechanical method to modulate the dimension scarcely changes the chemical structures, enabling the pure investigation on shape-induced physical effects. As a proof of principle, this work confirms the dynamics of excited carriers, and the photoelectronic properties of 2D semiconductors can be significantly engineered by a simple morphological evolution.

机译：卷起2 d原子层状材料1 d纳米管产生迷人的特性由于其较低的维度,更高的各向异性,和应变的影响。二维石墨C3N4 (g-C3N4)表1 d纳米管是首次证明通过简单和干净的超声治疗。稳态光学转换增强而兴奋的局部陷阱轧制后航母相当压抑平面上成纳米管。机械的方法来调节尺寸几乎不改变化学结构,使纯shape-induced调查物理效应。工作证实了兴奋的运营商的动力学,和2 d的光电性质半导体可以显著的工程一个简单的进化形态。

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来源
《Nanoscale》 |2018年第47期|22448-22455|共8页
作者
Gan Zhixing; Liu Lizhe; Pan PengfeiLin YawenShen JiancangJia Baohua;
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作者单位

Nanjing Normal Univ, Sch Phys & Technol, Key Lab Optoelect Technol Jiangsu Prov, Nanjing 210023, Jiangsu, Peoples R China;

Nanjing Univ, Natl Lab Solid State Microstruct, Nanjing 210093, Jiangsu, Peoples R China;

Swinburne Univ Technol, Fac Sci Engn & Technol, Ctr Microphoton, Hawthorn, Vic 3122, Australia;

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正文语种英语
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关键词
ROLLED; Nanotubes; dynamicsultrasonic cavitationPlanarOptical transitions;

机译：滚,纳米管;dynamicsultrasoniccavitationPlanarOptical转换;

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Engineering the carrier dynamics of g-C3N4 by rolling up planar sheets into nanotubes via ultrasonic cavitation

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