By recording the phase angle difference between the excitation force and the tip response in amplitude modulation AFM it is possible to image compositional variations in heterogeneous samples. In this contribution we address some of the experimental issues relevant to perform phase contrast imaging measurements. Specifically, we study the dependence of the phase shift on the tip-surface separation, interaction regime, cantilever parameters, free amplitude and tip-surface dissipative processes. We show that phase shift measurements can be converted into energy dissipation values. Energy dissipation curves show a maximum (~10 eV/cycle) with the amplitude ratio. Furthermore, energy dissipation maps provide a robust method to image material properties because they do not depend directly on the tip - surface interaction regime. Compositional contrast images are illustrated by imaging conjugated molecular islands deposited on silicon surfaces.
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机译:通过在振幅调制AFM中记录激振力和尖端响应之间的相角差,可以对异质样品中的成分变化进行成像。在这项贡献中,我们解决了一些与执行相位对比成像测量相关的实验问题。具体来说,我们研究了相移对尖端表面分离,相互作用机制,悬臂参数,自由振幅和尖端表面耗散过程的依赖性。我们表明,相移测量可以转换为能量耗散值。能量耗散曲线显示出振幅比的最大值(〜10 eV /周期)。此外,能量耗散图提供了一种对材料属性进行成像的可靠方法,因为它们不直接依赖于尖端与表面的相互作用方式。通过对沉积在硅表面的共轭分子岛进行成像来说明成分对比图像。
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