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Plasmon-Enhanced, Self-Traced Nanomotors on the Surface of Silicon
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2021-09-18 , DOI: 10.1002/anie.202108487 Jianhua Yang 1 , Jiapeng Zheng 2 , Ruoqi Ai 2 , Yunhe Lai 2 , Tsz Him Chow 2 , Lei Shao 3 , Jianfang Wang 4
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2021-09-18 , DOI: 10.1002/anie.202108487 Jianhua Yang 1 , Jiapeng Zheng 2 , Ruoqi Ai 2 , Yunhe Lai 2 , Tsz Him Chow 2 , Lei Shao 3 , Jianfang Wang 4
Affiliation
Gold-nanocrystal-based motors moving on the silicon surface are demonstrated. Their movement leaves a trace engraved on the silicon surface, representing an exceptional self-traced nanomotor system. Their velocity can be greatly enhanced by the plasmon resonance. Moreover, the traces generated by the movement of gold nanosphere dimers and trimers also provide a unique and promising approach to the fabrication of nanoscale silicon patterns.
中文翻译:
硅表面等离子体增强的自追踪纳米马达
演示了在硅表面上移动的基于金纳米晶体的电机。它们的运动在硅表面上留下了痕迹,代表了一个特殊的自追踪纳米电机系统。它们的速度可以通过等离子体共振大大提高。此外,金纳米球二聚体和三聚体运动产生的痕迹也为制造纳米级硅图案提供了一种独特而有前途的方法。
更新日期:2021-11-08
中文翻译:
硅表面等离子体增强的自追踪纳米马达
演示了在硅表面上移动的基于金纳米晶体的电机。它们的运动在硅表面上留下了痕迹,代表了一个特殊的自追踪纳米电机系统。它们的速度可以通过等离子体共振大大提高。此外,金纳米球二聚体和三聚体运动产生的痕迹也为制造纳米级硅图案提供了一种独特而有前途的方法。