3D-printed cellular tips for tuning fork atomic force microscopy in shear mode

3D-printed cellular tips for tuning fork atomic force microscopy in shear mode

The authors investigate 3D-printed tips, based on controlled microstructural architectured materials, as probes for shear-mode atomic force microscopy. They demonstrate that the tailored stiffness and energy-absorbing behaviour of the material are beneficial for improving image quality.

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Autores principales: Liangdong Sun, Hongcheng Gu, Xiaojiang Liu, Haibin Ni, Qiwei Li, Yi Zeng, Ning Chang, Di Zhang, Hongyuan Chen, Zhiyong Li, Xiangwei Zhao, Zhongze Gu
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
Materias:
Science
Q
Acceso en línea:https://doaj.org/article/b91eb18bc9fa4463a7dbbb8285c6a2d1
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spelling oai:doaj.org-article:b91eb18bc9fa4463a7dbbb8285c6a2d12021-12-02T15:33:52Z3D-printed cellular tips for tuning fork atomic force microscopy in shear mode10.1038/s41467-020-19536-92041-1723https://doaj.org/article/b91eb18bc9fa4463a7dbbb8285c6a2d12020-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-19536-9https://doaj.org/toc/2041-1723The authors investigate 3D-printed tips, based on controlled microstructural architectured materials, as probes for shear-mode atomic force microscopy. They demonstrate that the tailored stiffness and energy-absorbing behaviour of the material are beneficial for improving image quality.Liangdong SunHongcheng GuXiaojiang LiuHaibin NiQiwei LiYi ZengNing ChangDi ZhangHongyuan ChenZhiyong LiXiangwei ZhaoZhongze GuNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-12 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Liangdong Sun
Hongcheng Gu
Xiaojiang Liu
Haibin Ni
Qiwei Li
Yi Zeng
Ning Chang
Di Zhang
Hongyuan Chen
Zhiyong Li
Xiangwei Zhao
Zhongze Gu
3D-printed cellular tips for tuning fork atomic force microscopy in shear mode
description The authors investigate 3D-printed tips, based on controlled microstructural architectured materials, as probes for shear-mode atomic force microscopy. They demonstrate that the tailored stiffness and energy-absorbing behaviour of the material are beneficial for improving image quality.
format article
author Liangdong Sun
Hongcheng Gu
Xiaojiang Liu
Haibin Ni
Qiwei Li
Yi Zeng
Ning Chang
Di Zhang
Hongyuan Chen
Zhiyong Li
Xiangwei Zhao
Zhongze Gu
author_facet Liangdong Sun
Hongcheng Gu
Xiaojiang Liu
Haibin Ni
Qiwei Li
Yi Zeng
Ning Chang
Di Zhang
Hongyuan Chen
Zhiyong Li
Xiangwei Zhao
Zhongze Gu
author_sort Liangdong Sun
title 3D-printed cellular tips for tuning fork atomic force microscopy in shear mode
title_short 3D-printed cellular tips for tuning fork atomic force microscopy in shear mode
title_full 3D-printed cellular tips for tuning fork atomic force microscopy in shear mode
title_fullStr 3D-printed cellular tips for tuning fork atomic force microscopy in shear mode
title_full_unstemmed 3D-printed cellular tips for tuning fork atomic force microscopy in shear mode
title_sort 3d-printed cellular tips for tuning fork atomic force microscopy in shear mode
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/b91eb18bc9fa4463a7dbbb8285c6a2d1
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