Array atomic force microscopy for real-time multiparametric analysis

Nanoscale multipoint structure–function analysis is essential for deciphering the complexity of multiscale biological and physical systems. Atomic force microscopy (AFM) allows nanoscale structure–function imaging in various operating environments and can be integrated seamlessly with disparate prob...

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Autores principales: Yang, Qingqing, Ma, Qian, Herum, Kate M., Wang, Chonghe, Patel, Nirav, Lee, Joon, Wang, Shanshan, Yen, Tony M., Wang, Jun, Tang, Hanmei, Lo, Yu-Hwa, Head, Brian P., Azam, Farooq, Xu, Sheng, Cauwenberghs, Gert, McCulloch, Andrew D., John, Scott, Liu, Zhaowei, Lal, Ratnesh
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2019
Materias:
Physical Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6442637/
https://www.ncbi.nlm.nih.gov/pubmed/30850523
http://dx.doi.org/10.1073/pnas.1813518116
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author Yang, Qingqing
Ma, Qian
Herum, Kate M.
Wang, Chonghe
Patel, Nirav
Lee, Joon
Wang, Shanshan
Yen, Tony M.
Wang, Jun
Tang, Hanmei
Lo, Yu-Hwa
Head, Brian P.
Azam, Farooq
Xu, Sheng
Cauwenberghs, Gert
McCulloch, Andrew D.
John, Scott
Liu, Zhaowei
Lal, Ratnesh
author_facet Yang, Qingqing
Ma, Qian
Herum, Kate M.
Wang, Chonghe
Patel, Nirav
Lee, Joon
Wang, Shanshan
Yen, Tony M.
Wang, Jun
Tang, Hanmei
Lo, Yu-Hwa
Head, Brian P.
Azam, Farooq
Xu, Sheng
Cauwenberghs, Gert
McCulloch, Andrew D.
John, Scott
Liu, Zhaowei
Lal, Ratnesh
author_sort Yang, Qingqing
collection PubMed
description Nanoscale multipoint structure–function analysis is essential for deciphering the complexity of multiscale biological and physical systems. Atomic force microscopy (AFM) allows nanoscale structure–function imaging in various operating environments and can be integrated seamlessly with disparate probe-based sensing and manipulation technologies. Conventional AFMs only permit sequential single-point analysis; widespread adoption of array AFMs for simultaneous multipoint study is challenging owing to the intrinsic limitations of existing technological approaches. Here, we describe a prototype dispersive optics-based array AFM capable of simultaneously monitoring multiple probe–sample interactions. A single supercontinuum laser beam is utilized to spatially and spectrally map multiple cantilevers, to isolate and record beam deflection from individual cantilevers using distinct wavelength selection. This design provides a remarkably simplified yet effective solution to overcome the optical cross-talk while maintaining subnanometer sensitivity and compatibility with probe-based sensors. We demonstrate the versatility and robustness of our system on parallel multiparametric imaging at multiscale levels ranging from surface morphology to hydrophobicity and electric potential mapping in both air and liquid, mechanical wave propagation in polymeric films, and the dynamics of living cells. This multiparametric, multiscale approach provides opportunities for studying the emergent properties of atomic-scale mechanical and physicochemical interactions in a wide range of physical and biological networks.
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spelling pubmed-64426372019-04-05 Array atomic force microscopy for real-time multiparametric analysis Yang, Qingqing Ma, Qian Herum, Kate M. Wang, Chonghe Patel, Nirav Lee, Joon Wang, Shanshan Yen, Tony M. Wang, Jun Tang, Hanmei Lo, Yu-Hwa Head, Brian P. Azam, Farooq Xu, Sheng Cauwenberghs, Gert McCulloch, Andrew D. John, Scott Liu, Zhaowei Lal, Ratnesh Proc Natl Acad Sci U S A Physical Sciences Nanoscale multipoint structure–function analysis is essential for deciphering the complexity of multiscale biological and physical systems. Atomic force microscopy (AFM) allows nanoscale structure–function imaging in various operating environments and can be integrated seamlessly with disparate probe-based sensing and manipulation technologies. Conventional AFMs only permit sequential single-point analysis; widespread adoption of array AFMs for simultaneous multipoint study is challenging owing to the intrinsic limitations of existing technological approaches. Here, we describe a prototype dispersive optics-based array AFM capable of simultaneously monitoring multiple probe–sample interactions. A single supercontinuum laser beam is utilized to spatially and spectrally map multiple cantilevers, to isolate and record beam deflection from individual cantilevers using distinct wavelength selection. This design provides a remarkably simplified yet effective solution to overcome the optical cross-talk while maintaining subnanometer sensitivity and compatibility with probe-based sensors. We demonstrate the versatility and robustness of our system on parallel multiparametric imaging at multiscale levels ranging from surface morphology to hydrophobicity and electric potential mapping in both air and liquid, mechanical wave propagation in polymeric films, and the dynamics of living cells. This multiparametric, multiscale approach provides opportunities for studying the emergent properties of atomic-scale mechanical and physicochemical interactions in a wide range of physical and biological networks. National Academy of Sciences 2019-03-26 2019-03-08 /pmc/articles/PMC6442637/ /pubmed/30850523 http://dx.doi.org/10.1073/pnas.1813518116 Text en Copyright © 2019 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/ This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Physical Sciences
Yang, Qingqing
Ma, Qian
Herum, Kate M.
Wang, Chonghe
Patel, Nirav
Lee, Joon
Wang, Shanshan
Yen, Tony M.
Wang, Jun
Tang, Hanmei
Lo, Yu-Hwa
Head, Brian P.
Azam, Farooq
Xu, Sheng
Cauwenberghs, Gert
McCulloch, Andrew D.
John, Scott
Liu, Zhaowei
Lal, Ratnesh
Array atomic force microscopy for real-time multiparametric analysis
title Array atomic force microscopy for real-time multiparametric analysis
title_full Array atomic force microscopy for real-time multiparametric analysis
title_fullStr Array atomic force microscopy for real-time multiparametric analysis
title_full_unstemmed Array atomic force microscopy for real-time multiparametric analysis
title_short Array atomic force microscopy for real-time multiparametric analysis
title_sort array atomic force microscopy for real-time multiparametric analysis
topic Physical Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6442637/
https://www.ncbi.nlm.nih.gov/pubmed/30850523
http://dx.doi.org/10.1073/pnas.1813518116
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