本實驗利用自行改質的二氧化矽奈米粒子塗佈在玻璃上所形成的超疏水表面來探討水滴接觸角的遲滯現象。 實驗分為兩部分,第一部分針對水滴接觸角的遲滯現象提出新的量測方法-壓板法,實驗利用超疏水表面擠壓在壓克力表面上的水珠,探討在固定的水珠體積之下,旋轉平台上升使水珠被超疏水表面擠壓以及旋轉平台下降水珠回復的過程當中,水珠高度、水珠於壓克力上的接觸面直徑與水珠在壓克力上的接觸角三者之間的相對關系是如何來呈現接觸角的遲滯現象。 第二部分實驗探討在沒有遲滯現象的超疏水表面上刻意製造出缺陷,觀察水珠在缺陷上方隨著傾斜角慢慢增加而開始出現滾動的行為,藉由探討缺陷大小、缺陷上方水珠的大小、水珠前端與後端的接觸角與水珠滾動時的傾斜角之間的相對關係來模擬遲滯現象的成因。 Abstract In this thesis, a homemade superhydrophobic surface,fabricated by spraying the coating of surface-modified nanosilica on glass slice, is employed as an experimental material to discuss the phenomenon of contact angle hysteresis. The experiment is divided into two parts. In the first part, a new measurement of contact angle hysteresis, compression of plate, is presented. Through observation of the droplet compressed and stretched by downward and upward movement of superhydrophobic surface, the relation between the height, base diameter and contact angle of droplet can be recorded and hence the behavior of contact angle hysteresis can be verified. In the second part, different sizes of defects are made on the superhydrophobic surface which is originally free of contact angle hysteresis. The cause of contact angle hysteresis can be simulated by observation of the relation between sizes of defects, sizes of droplets, the forward and backward contact angle of droplet and the sliding angle of droplet.