功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
24期
3658-3662
,共5页
吴勃%周明%李保家%蔡兰
吳勃%週明%李保傢%蔡蘭
오발%주명%리보가%채란
飞秒激光%水热法%高粘附超疏水%ZnO%不锈钢
飛秒激光%水熱法%高粘附超疏水%ZnO%不鏽鋼
비초격광%수열법%고점부초소수%ZnO%불수강
femtosecond laser%hydrothermal method%high adhesive superhydrophobicity%ZnO%stainless steel
提供了一种在不锈钢基体上制备高粘附超疏水薄膜的方法。利用飞秒激光结合水热法在316L不锈钢表面制备了高粘附超疏水薄膜。先在高真空环境下,用能流密度2.4 J/cm2的飞秒激光在不锈钢表面制备出微米级周期性锥状钉结构;然后采用水热法在已经溅射了一层 ZnO 种晶层的不锈钢微结构表面制备出ZnO 纳米杆薄膜,形成微米级锥状钉结构与ZnO 纳米杆相结合的双尺度微纳结构。SEM和 XRD分析结果表明产物为六方纤锌矿结构的 ZnO 晶体。这种双尺度结构表面的表观接触角为160.2°,同时对水滴具有高粘附性。根据建立的微结构几何模型和假定的润湿状态,给出了接触角的计算公式,计算值与实验结果一致性较好。
提供瞭一種在不鏽鋼基體上製備高粘附超疏水薄膜的方法。利用飛秒激光結閤水熱法在316L不鏽鋼錶麵製備瞭高粘附超疏水薄膜。先在高真空環境下,用能流密度2.4 J/cm2的飛秒激光在不鏽鋼錶麵製備齣微米級週期性錐狀釘結構;然後採用水熱法在已經濺射瞭一層 ZnO 種晶層的不鏽鋼微結構錶麵製備齣ZnO 納米桿薄膜,形成微米級錐狀釘結構與ZnO 納米桿相結閤的雙呎度微納結構。SEM和 XRD分析結果錶明產物為六方纖鋅礦結構的 ZnO 晶體。這種雙呎度結構錶麵的錶觀接觸角為160.2°,同時對水滴具有高粘附性。根據建立的微結構幾何模型和假定的潤濕狀態,給齣瞭接觸角的計算公式,計算值與實驗結果一緻性較好。
제공료일충재불수강기체상제비고점부초소수박막적방법。이용비초격광결합수열법재316L불수강표면제비료고점부초소수박막。선재고진공배경하,용능류밀도2.4 J/cm2적비초격광재불수강표면제비출미미급주기성추상정결구;연후채용수열법재이경천사료일층 ZnO 충정층적불수강미결구표면제비출ZnO 납미간박막,형성미미급추상정결구여ZnO 납미간상결합적쌍척도미납결구。SEM화 XRD분석결과표명산물위륙방섬자광결구적 ZnO 정체。저충쌍척도결구표면적표관접촉각위160.2°,동시대수적구유고점부성。근거건립적미결구궤하모형화가정적윤습상태,급출료접촉각적계산공식,계산치여실험결과일치성교호。
High adhesive superhydrophobicity film was prepared on 316L stainless steel surface by femtosecond laser combined hydrothermal method.Firstly,periodic spikes on micron scale were fabricated with laser fluence of 2.4 J/cm2 in high vacuum.Secondly,a seed layer was prepared on the microstructured surface by magnetron sputtering.Finally,ZnO nanorods film was prepared on the seed layer by hydrothermal method.The micro-spikes and ZnO nanorods composed a dual-scale structure.SEM and XRD results revealed that the reaction was ZnO crystal with hexagonal wurtzite structure.The apparent contact angle on the dual-scale structure was 160.2°.Furthermore,the film had a high adhesive force to water.Based on the microstructure geometric mod-el and hypothetical wetting state,the computational formula of apparent contact angle was produced.The cal-culated value accorded well with the experimental result.We provided an effective method to fabricate film with high adhesive superhydrophobicity on stainless steel surface.
