稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
932-934
,共3页
水热法%氧化钨纳米线%氨敏特性
水熱法%氧化鎢納米線%氨敏特性
수열법%양화오납미선%안민특성
hydro-thermal method%tungsten oxide nanowires%NH_3 sensing characteristics
采用简易水热法制备直径为10~20 nm、长几百纳米至几微米的六方相氧化钨纳米线,比表面积高达130.69 m~2/g.将该纳米线采用丝网印刷法制备成敏感膜,经350 ℃烧结1 h后测试其氨敏性能并分析其敏感机制.结果表明:在200~350 ℃的温度范围内,该敏感膜对低浓度氨气(1~100) μL/L具有较高的灵敏度(R_(air)/R_(NH_3)=4.0~18.8)、良好的重复性和很好的稳定性;对同一浓度的氨气,随测试温度的升高其灵敏度不断增大;在同一温度下,灵敏度随氨气浓度的增加基本上呈线性不断增大.
採用簡易水熱法製備直徑為10~20 nm、長幾百納米至幾微米的六方相氧化鎢納米線,比錶麵積高達130.69 m~2/g.將該納米線採用絲網印刷法製備成敏感膜,經350 ℃燒結1 h後測試其氨敏性能併分析其敏感機製.結果錶明:在200~350 ℃的溫度範圍內,該敏感膜對低濃度氨氣(1~100) μL/L具有較高的靈敏度(R_(air)/R_(NH_3)=4.0~18.8)、良好的重複性和很好的穩定性;對同一濃度的氨氣,隨測試溫度的升高其靈敏度不斷增大;在同一溫度下,靈敏度隨氨氣濃度的增加基本上呈線性不斷增大.
채용간역수열법제비직경위10~20 nm、장궤백납미지궤미미적륙방상양화오납미선,비표면적고체130.69 m~2/g.장해납미선채용사망인쇄법제비성민감막,경350 ℃소결1 h후측시기안민성능병분석기민감궤제.결과표명:재200~350 ℃적온도범위내,해민감막대저농도안기(1~100) μL/L구유교고적령민도(R_(air)/R_(NH_3)=4.0~18.8)、량호적중복성화흔호적은정성;대동일농도적안기,수측시온도적승고기령민도불단증대;재동일온도하,령민도수안기농도적증가기본상정선성불단증대.
Hexagonal tungsten oxide nanowires were prepared by a simple hydrothermal method. The diameter of the nanowires is about 10~20 nm, the length is up to several micrometers and the specific area is 130.69 m~2/g. Thick film gas sensor was prepared by screen-printing technology and sintered at 350 ℃ for 1 h. The NH3 sensing properties and sensing mechanics at low concentrations (1-100 μL/L) were investigated in the temperature range from 200 to 350 ℃. It shows a high sensitivities (R_a/R_g) (4.0-18.8), good repeatability and stability. The sensitivity increased with increasing the operating temperature from 200 ℃ to 350 ℃ for the same NH_3 concentration. At the same temperature, the sensitivity increased almost linearly with increasing the concentration of NH_3 gas from 1-100 μL/L.
