材料科学与工程学报
材料科學與工程學報
재료과학여공정학보
MATERIALS SCIENCE AND ENGINEERING
2006年
5期
673-675
,共3页
ZHANG Hua-yu%张化宇%刘良学%马洪涛%刘凡新%刘会良%王东
ZHANG Hua-yu%張化宇%劉良學%馬洪濤%劉凡新%劉會良%王東
ZHANG Hua-yu%장화우%류량학%마홍도%류범신%류회량%왕동
ta-C:N%AFM%XPS%粗糙度
ta-C:N%AFM%XPS%粗糙度
ta-C:N%AFM%XPS%조조도
ta-C:N%AFM%XPS%roughness
采用FCVA工艺成功制备了ta-C薄膜,采用ECR-CVD工艺对部分ta-C薄膜试样进行氮等离子体处理,制备了ta-C:N薄膜.对两种薄膜的表面粗糙度与元素含量、沉积工艺参数之间的关系进行了研究.通过AFM对薄膜表面粗糙度进行了分析,通过XPS对薄膜的元素含量进行了分析.试验结果显示,沉积条件对薄膜厚度和元素含量具有明显的影响.对ta-C薄膜进行氮等离子体处理后,其表面粗糙度有一个明显的起伏变化.研究结果表明,氮能改变DLC薄膜表面的粗糙度.元素含量也随着薄膜的厚度变化而变化.
採用FCVA工藝成功製備瞭ta-C薄膜,採用ECR-CVD工藝對部分ta-C薄膜試樣進行氮等離子體處理,製備瞭ta-C:N薄膜.對兩種薄膜的錶麵粗糙度與元素含量、沉積工藝參數之間的關繫進行瞭研究.通過AFM對薄膜錶麵粗糙度進行瞭分析,通過XPS對薄膜的元素含量進行瞭分析.試驗結果顯示,沉積條件對薄膜厚度和元素含量具有明顯的影響.對ta-C薄膜進行氮等離子體處理後,其錶麵粗糙度有一箇明顯的起伏變化.研究結果錶明,氮能改變DLC薄膜錶麵的粗糙度.元素含量也隨著薄膜的厚度變化而變化.
채용FCVA공예성공제비료ta-C박막,채용ECR-CVD공예대부분ta-C박막시양진행담등리자체처리,제비료ta-C:N박막.대량충박막적표면조조도여원소함량、침적공예삼수지간적관계진행료연구.통과AFM대박막표면조조도진행료분석,통과XPS대박막적원소함량진행료분석.시험결과현시,침적조건대박막후도화원소함량구유명현적영향.대ta-C박막진행담등리자체처리후,기표면조조도유일개명현적기복변화.연구결과표명,담능개변DLC박막표면적조조도.원소함량야수착박막적후도변화이변화.
Ta-C flms were prepared by filtered cathodic vacuum arc (FCVA) process. Ta-C:N films were developed on the basis of ta-C films through nitrogen plasma treatment with Electron Cyclotron Resonance Chemical Vapor Deposition (ECR-CVD) process. The relations between the ta-C and ta-C: N surface roughness and elements content, certain deposition parameters, were investigated in this paper. Also, two kinds of films were contrastively investigated on roughness and elements content, through atomic force microscopy (AFM)and X-Ray photoelectron spectroscopy (XPS) respectively. The results show that the films thickness and elements content are apparently affected by the deposition conditions. The surface roughness has an apparent fluctuation when the ta-C films are treated by the nitrogen.plasma. The surface roughness varies after the nitrogen was doped. Elements content also changes with the films' thickness.
