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使用 Q 阻尼原子力显微镜悬臂对亲水表面的频率分辨水动力学进行脉冲响应测量。

Pulse-response measurement of frequency-resolved water dynamics on a hydrophilic surface using a Q-damped atomic force microscopy cantilever.

机构信息

Department of Physics, Tokyo Gakugei University, 4-1-1 Nukui-kita-machi, Koganei, Tokyo 184-8501, Japan.

出版信息

Beilstein J Nanotechnol. 2012;3:260-6. doi: 10.3762/bjnano.3.29. Epub 2012 Mar 19.

Abstract

The frequency-resolved viscoelasticity of a hydration layer on a mica surface was studied by pulse-response measurement of a magnetically driven atomic force microscopy cantilever. Resonant ringing of the cantilever due to its 1st and 2nd resonance modes was suppressed by means of the Q-control technique. The Fourier-Laplace transform of the deflection signal of the cantilever gave the frequency-resolved complex compliance of the cantilever-sample system. The significant viscoelasticity spectrum of the hydration layer was successfully derived in a frequency range below 100 kHz by comparison of data obtained at a distance of 300 nm from the substrate with those taken in the proximity of the substrate. A positive value of the real part of the stiffness was determined and is attributed to the reported solidification of the hydration layers.

摘要

通过脉冲响应测量磁驱动原子力显微镜悬臂梁,研究云母表面水合层的频域粘弹性。采用 Q 控制技术抑制悬臂梁的 1 阶和 2 阶共振模式的谐振振铃。悬臂梁的挠度信号的傅里叶-拉普拉斯变换给出了悬臂梁-样品系统的频域复柔量。通过比较距基底 300nm 处获得的数据与基底附近获得的数据,成功地在低于 100kHz 的频率范围内得出水合层的显著粘弹性谱。确定了刚度实部的正值,这归因于报道的水合层的固化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6bc7/3323915/148ca1fe51d1/Beilstein_J_Nanotechnol-03-260-g002.jpg

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