但是通过介电泳对组装的微纳结构进行精确控制目前仍存在比较大的困难。

However, due to inadequate understanding of DEP mechanisms, it remains very limited to precisely control the final structure of assembled nanoparticles under DEP.

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以行波介电泳基本原理为基础，对微纳粒子操控技术的机理与实验进行了研究。

Based on travel-wave electrophoresis (twDEP), this thesis shows the theory analysis and related experiments to control micro-particles.

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该致动器单元（AU）尤其可以对相邻样品室中的样品（1）施加介电电泳力，该敏感单元（SU）任选地测 量所述样品的属性。

The actuator units (AU) may particularly exert dielectrophoretic forces on a sample (1) in an adjacent sample chamber, and the sensitive units (SU) optionally measure properties of said sample.

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该致动器单元（AU）尤其可以对相邻样品室中的样品（1）施加介电电泳力，该敏感单元（SU）任选地测 量所述样品的属性。

The actuator units (AU) may particularly exert dielectrophoretic forces on a sample (1) in an adjacent sample chamber, and the sensitive units (SU) optionally measure properties of said sample.

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