自旋涂层在形成超疏水表面方面的优势

Rajath H G, Dr. H V Byregowda
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引用次数: 0

摘要

在当今世界,涂层在提高材料的机械性能方面起着至关重要的作用,不需要改变材料的完整化学和结构,而是表面改性足以减少材料因表面灰尘的腐蚀积累而退化,水与表面之间的接触角是主要焦点。目前的文章,目前的工作给出了浸涂、溶胶-凝胶、喷涂、自旋镀膜、等离子镀膜、化学气相沉积、光刻等不同类型镀膜的集体结果,比较了所有镀膜方法,自旋镀膜可以将表面转化为接触角165°的超疏水表面,涂层微米为10 ~ 30微米,浸涂可以将表面转化为接触角160°的超疏水表面。溶胶-凝胶涂层的接触角为115°-165°,涂层为20微米,喷涂涂层的接触角为164°,涂层为7微米,等离子涂层的接触角为144°,涂层为25微米,化学气相沉积的接触角为159.3°,涂层为20微米,光刻涂层的接触角为160°,涂层为33微米,而其他涂层技术如浸镀、喷涂、等离子涂层、化学气相沉积、而光刻则分别受到接触角的约束。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advantages of Spin Coating Over Other Coating Techniques in the Formation of Superhydrophobic Surfaces
In this contemporary world, coating plays a vital role to improve the mechanical property of the material, complete chemistry and structure of the material need not be altered instead surface modification is more than enough to reduce the degradation of material through corrosion accumulation of the dust on the surface and the contact angle between the water and the surface is the major focus. the current article, current work gives the collective result of different types of coating like dip coating, sol-gel, spray coating, spin coating, plasma coating, chemical vapor deposition, and lithography in comparing all the methods of coating with spin coating it can convert the surface into a superhydrophobic surface with more contact angle of 165° with the coating microns of 10 to 30 micron, and dip-coating having a contact angle 160° with coating 3 microns, the sol-gel coating having contact angle 115°-165° with coating 20 microns, spray coating having contact angle 164° with coating 7 microns, plasma coating having contact angle 144° with coating 25 microns, chemical vapor deposition having contact angle 159.3°with 20 microns, lithography coating has a contact angle of 160° with coating 33 microns, whereas other coating techniques like dip, spray, plasma coating, chemical vapor deposition, and lithography have constraints with contact angle respectively.
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