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Enhanced efficiency in the excitation of higher modes for atomic force microscopy and mechanical sensors operated in liquids

机译：在液体中操作的原子力显微镜和机械传感器的更高模式的激发效率提高

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© 2014 AIP Publishing LLC. Recent developments in dynamic Atomic Force Microscopy where several eigenmodes are simultaneously excited in liquid media are proving to be an excellent tool in biological studies. Despite its relevance, the search for a reliable, efficient, and strong cantilever excitation method is still in progress. Herein, we present a theoretical modeling and experimental results of different actuation methods compatible with the operation of Atomic Force Microscopy in liquid environments: ideal acoustic, homogeneously distributed force, distributed applied torque (MAC Mode™), photothermal and magnetostrictive excitation. From the analysis of the results, it can be concluded that magnetostriction is the strongest and most efficient technique for higher eigenmode excitation when using soft cantilevers in liquid media.

机译：©2014 AIP Publishing LLC。动态原子力显微镜（在液体介质中同时激发多种本征模式）的最新进展被证明是生物学研究的绝佳工具。尽管有其相关性，但仍在寻找可靠，有效且强力的悬臂激励方法。在此，我们介绍了与液体环境中的原子力显微镜操作兼容的不同驱动方法的理论模型和实验结果：理想的声波，均匀分布的力，分布的施加扭矩（MAC Mode™），光热和磁致伸缩激发。通过对结果的分析，可以得出结论，当在液体介质中使用软悬臂梁时，磁致伸缩是用于更高本征模激发的最强大和最有效的技术。

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Penedo García Marcos; Raman A.; Hormeño Silvia; Fernández Martínez I.; Luna Mónica; Briones Fernández-Pola Fernando;
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年度 2016
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正文语种 eng
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1. Enhanced efficiency in the excitation of higher modes for atomic force microscopy and mechanical sensors operated in liquids [J] . Penedo M., Raman A., Hormeno S., Applied Physics Letters . 2014 ,第17期

机译：在液体中操作的原子力显微镜和机械传感器的更高模式的激发效率提高
2. Enhanced efficiency in the excitation of higher modes for atomic force microscopy and mechanical sensors operated in liquids [J] . M. Penedo, A. Raman, S. Hormeno, Applied Physics Letters . 2014 ,第17期

机译：在液体中操作的原子力显微镜和机械传感器的更高模式的激发效率提高
3. Micromachined atomic force microscopy sensor with integrated piezoresistive sensor and thermal bimorph actuator for high-speed tapping-mode atomic force microscopy phase-imaging in higher eigenmodes [J] . R. Pedrak, Tzv. Ivanov, K. Ivanova, Journal of Vacuum Science & Technology. B, Microelectronics and Nanometer Structure . 2003 ,第6期

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4. UNIFYING THEORY OF QUANTITATIVE ATOMIC FORCE MICROSCOPY USING PIEZO EXCITATION IN LIQUIDS [C] . Daniel R. Kiracofe, Arvind Raman ASME international design engineering technical conferences . 2012

机译：用液体压电激发的定量原子力学显微镜统一理论
5. Nanomechanical properties of biocomposites using atomic force microscopy - measurement and modeling. [D] . Maghsoudy-Louyeh, Sahar. 2011

机译：使用原子力显微镜的生物复合材料的纳米力学性能-测量和建模。
6. Manipulation of gold colloidal nanoparticles with atomic force microscopy in dynamic mode: influence of particle–substrate chemistry and morphology, and of operating conditions [O] . Samer Darwich, Karine Mougin, Akshata Rao, 2015

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7. Magnetostrictive excitation of Atomic Force Microscopy cantilevers when operating in liquid environments [O] . Penedo García, Marcos 2013

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8. Determination of Nanomechanical Properties by Atomic Force Microscopy: Scientific Operating Procedure SOP-C-#. [R] . Cuddy, M. F., Poda, A. R., Hull, M. S. 2015

机译：用原子力显微镜测定纳米力学性能：科学操作程序sOp-C-＃。

Enhanced efficiency in the excitation of higher modes for atomic force microscopy and mechanical sensors operated in liquids

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