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作 者:张友法[1] 余新泉[1] 周荃卉[1] 李康宁[1]
机构地区:[1]东南大学材料科学与工程学院,江苏省先进金属材料高技术研究重点实验室,南京211189
出 处:《物理化学学报》2010年第5期1457-1462,共6页Acta Physico-Chimica Sinica
基 金:国家自然科学基金(20703010)资助项目~~
摘 要:用喷砂处理在铜片表面形成微米级丘陵状凹坑,再用表面氧化处理在铜片表面制备菊花花瓣状CuO纳米片.通过喷砂-表面氧化处理在铜片表面成功构建了微米-纳米复合结构,这种表面氟化后与水滴的接触角高达161°,滚动角低至1°,显示出优异的超疏水性和很低的粘着性.低温下,这种表面与水滴间的热量交换较小,水滴不易凝结,有效地提高了抗结霜性.抗结霜性良好的超疏水铜有望在热交换器或低温运行设备等领域获得应用,这种简便的超疏水铜表面的制备方法也给其它工程材料超疏水表面的工业化制备提供了一个思路.Microscale V-shaped impact pits are formed on copper surfaces after sandblasting.After surface oxidation,the whole copper surface is uniformly and completely covered by petal-like CuO nanosheets.Micro-and nanoscale structures are fabricated by a combination of sandblasting and surface oxidation,which leads to a high water contact angle of 161° and an ultra-low water roll angle of 1° for the surface after fluorination.Water condensation is difficult at low temperatures as heat transfer between the surface and water droplets is greatly reduced on these surfaces.This is thought to be the main reason for the improvement in ice resistance of the superhydrophobic copper surface.Superhydrophobic copper surfaces with excellent anti-icing performance can be widely used in many fields such as in heat exchange and in products operating at low temperatures.Such a facile technique is expected to be a feasible method for the industrial fabrication of superhydrophobic surfaces on other engineering materials.
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