成果報告書詳細
管理番号20160000000232
タイトル*平成27年度中間年報 エネルギー・環境新技術先導プログラム 生物表面模倣による難付着・低抵抗表面の開発
公開日2016/4/22
報告書年度2015 - 2015
委託先名三菱レイヨン株式会社 国立研究開発法人産業技術総合研究所 株式会社日立製作所 国立大学法人北海道大学 学校法人千歳科学技術大学
プロジェクト番号P14004
部署名イノベーション推進部
和文要約
英文要約Development of techniques for controlling highly-functionalized nano surfaces/interfaces based on biomimetic approaches

(A) Development on interaction control technology between liquid-solid and surface.
 In order to cooperatively proceed with the project, Mitsubishi Rayon and AIST have collectively developed a study policy, and confirmed sharing roles with each other. Firstly, Mitsubishi Rayon will 1) demonstrate the preparation of A4-size samples, without any nanostructures, using the syneresis polymers developed by AIST; 2) investigate detachability, and hardenability, of the polymers from small metal molds with moth-eye structures; 3) confirm the presence of resulting surface nanostructures using reflectance measurements. Anti-icing properties of the resulting samples will be studied by AIST, and based on the results AIST will then optimize of the syneresis polymers. In addition, with a view to the future preparation of large size samples, Mitsubishi Rayon will prepare an A4 size metal mold with moth-eye structures. AIST will also investigate the dispersion and solubility of anti-freezing liquids when combined with Mitsubishi Rayon’s (UV-curable type) prototype polymers, which will be supplied by Mitsubishi Rayon.
 In order to observe surfaces of solar panels, Chitose Institute of Science and Technology placed the compact camera, possessing both time-lapse functionalities and an infrared radiation sensor in front of the solar panels located on the campus. Using this camera, we could successfully record both images and temperatures all day and all night without fail.
 Hokkaido University have prepared the multiphysics software for simulations of optical properties of a syneresis polymers films and heat transfer characteristics of them. We have confirmed the execution environment of the software for the simulations.

(B) Development on interaction control technology between gas-liquid and solid surfaces.
This research theme will be started in April, 2016.
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