粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2014年
1期
108-115
,共8页
王翠凤%邱锡荣%张雅珍%欧耿良
王翠鳳%邱錫榮%張雅珍%歐耿良
왕취봉%구석영%장아진%구경량
Ag-DLC%溅射%抗菌能力
Ag-DLC%濺射%抗菌能力
Ag-DLC%천사%항균능력
Ag-DLC%sputtering%antibacterial ability
为了明确银原子含量对含银的类钻碳类(diamond like carbon,DLC)薄膜抗菌率和薄膜性能的影响,改变溅射功率,采用射频磁控溅射法在玻璃基底上制备一系列不同 Ag 含量(原子分数,下同)的 Ag-DLC 薄膜。通过扫描电镜、拉曼光谱分析仪、透射电镜、X射线衍射仪、原子力显微镜等手段,研究Ag-DLC薄膜的C键结形态以及等对薄膜的特性与抗菌率等。结果表明,随溅射功率增加,薄膜厚度、薄膜中Ag含量以及D峰与G峰的积分强度比值ID/IG都增加。并且薄膜表面逐渐变得粗糙,薄膜的硬度和电阻率均下降。生物特性上,随溅射功率增加,薄膜对大肠杆菌(E.coli)表现出更加优良的抗菌性能。当溅射功率为200 W 时,薄膜中 Ag 的原子分数为19.77%,足以保证薄膜具有优良的抗菌性能,抗菌率达到98%。
為瞭明確銀原子含量對含銀的類鑽碳類(diamond like carbon,DLC)薄膜抗菌率和薄膜性能的影響,改變濺射功率,採用射頻磁控濺射法在玻璃基底上製備一繫列不同 Ag 含量(原子分數,下同)的 Ag-DLC 薄膜。通過掃描電鏡、拉曼光譜分析儀、透射電鏡、X射線衍射儀、原子力顯微鏡等手段,研究Ag-DLC薄膜的C鍵結形態以及等對薄膜的特性與抗菌率等。結果錶明,隨濺射功率增加,薄膜厚度、薄膜中Ag含量以及D峰與G峰的積分彊度比值ID/IG都增加。併且薄膜錶麵逐漸變得粗糙,薄膜的硬度和電阻率均下降。生物特性上,隨濺射功率增加,薄膜對大腸桿菌(E.coli)錶現齣更加優良的抗菌性能。噹濺射功率為200 W 時,薄膜中 Ag 的原子分數為19.77%,足以保證薄膜具有優良的抗菌性能,抗菌率達到98%。
위료명학은원자함량대함은적류찬탄류(diamond like carbon,DLC)박막항균솔화박막성능적영향,개변천사공솔,채용사빈자공천사법재파리기저상제비일계렬불동 Ag 함량(원자분수,하동)적 Ag-DLC 박막。통과소묘전경、랍만광보분석의、투사전경、X사선연사의、원자력현미경등수단,연구Ag-DLC박막적C건결형태이급등대박막적특성여항균솔등。결과표명,수천사공솔증가,박막후도、박막중Ag함량이급D봉여G봉적적분강도비치ID/IG도증가。병차박막표면축점변득조조,박막적경도화전조솔균하강。생물특성상,수천사공솔증가,박막대대장간균(E.coli)표현출경가우량적항균성능。당천사공솔위200 W 시,박막중 Ag 적원자분수위19.77%,족이보증박막구유우량적항균성능,항균솔체도98%。
To clarify the effects of silver (Ag) atom content on antibacterial rate and the performance of silver-containing diamond-like carbon (DLC) films, Ag-DLC films were deposited on the glass using magnetron reactive sputtering. The watt of input energy was applied as main process parameter to obtain 1~2μm thick films. The basic properties such as hardness, electric resistivity and surface roughness were evaluated by hardness tester, 4 points-probe resistivity tester and atomic force microscope (AFM), respectively. The X-ray diffraction (XRD), scanning electron microscope (SEM), Raman spectroscope and transmission electron microscope (TEM) were used to examine the microstructures and bonding characteristic and growth morphologies of DLC films. Antibacterial test and contact angle test were undertaken to analyze the antibacterial ability of silver-containing DLC films. The results indicate that, with increasing the input power, the thickness, silver content, ID/IG of the films and surface roughness increase, while the hardness and electric resistivity decrease. Antibacterial tests show that, with increasing the input power, the antibacterial ability against E.coli increases. The antibacterial rate of 98%is obtained in the films with 19.77%(atom fraction) silver content when the input power is 200 W.