真空科学与技术学报
真空科學與技術學報
진공과학여기술학보
JOURNAL OF VACUUM SCIENCE AND TECHNOLOGY
2009年
4期
427-430
,共4页
杨定宇%郑家贵%朱兴华%魏昭荣%杨军%高秀英
楊定宇%鄭傢貴%硃興華%魏昭榮%楊軍%高秀英
양정우%정가귀%주흥화%위소영%양군%고수영
CdTe太阳电池%CdS多晶薄膜%电子束蒸发%晶向%晶粒尺寸%吸收边
CdTe太暘電池%CdS多晶薄膜%電子束蒸髮%晶嚮%晶粒呎吋%吸收邊
CdTe태양전지%CdS다정박막%전자속증발%정향%정립척촌%흡수변
CdTe solar cells%Polycrystalline CdS thin films%Electron beam evaporation%Crystalline orentation%Grain size%Absorption edge
采用电子束蒸发工艺在普通玻璃衬底上制备了硫化镉(CdS)多晶薄膜,研究了不同衬底温度对薄膜结构、表面形貌及光透过率的影响.测试结果显示:(1)不同衬底温度下沉积的CdS薄膜均呈现了〈002〉晶向的高度优势生长,属于六方相结构.随着衬底温度的升高,还逐渐出现了〈103〉、〈004〉、〈105〉等六方晶向;(2)CdS多晶薄膜表面连续,致密性好,且晶粒大小随着衬底温度的升高而增大;(3)低温下制备CdS薄膜吸收谱有较宽的吸收边,随着衬底温度的升高,吸收曲线趋于陡直.制备样品在550nm波段后的平均透过率都超过70%,符合作为CdTe太阳电池的窗口层.
採用電子束蒸髮工藝在普通玻璃襯底上製備瞭硫化鎘(CdS)多晶薄膜,研究瞭不同襯底溫度對薄膜結構、錶麵形貌及光透過率的影響.測試結果顯示:(1)不同襯底溫度下沉積的CdS薄膜均呈現瞭〈002〉晶嚮的高度優勢生長,屬于六方相結構.隨著襯底溫度的升高,還逐漸齣現瞭〈103〉、〈004〉、〈105〉等六方晶嚮;(2)CdS多晶薄膜錶麵連續,緻密性好,且晶粒大小隨著襯底溫度的升高而增大;(3)低溫下製備CdS薄膜吸收譜有較寬的吸收邊,隨著襯底溫度的升高,吸收麯線趨于陡直.製備樣品在550nm波段後的平均透過率都超過70%,符閤作為CdTe太暘電池的窗口層.
채용전자속증발공예재보통파리츤저상제비료류화력(CdS)다정박막,연구료불동츤저온도대박막결구、표면형모급광투과솔적영향.측시결과현시:(1)불동츤저온도하침적적CdS박막균정현료〈002〉정향적고도우세생장,속우륙방상결구.수착츤저온도적승고,환축점출현료〈103〉、〈004〉、〈105〉등륙방정향;(2)CdS다정박막표면련속,치밀성호,차정립대소수착츤저온도적승고이증대;(3)저온하제비CdS박막흡수보유교관적흡수변,수착츤저온도적승고,흡수곡선추우두직.제비양품재550nm파단후적평균투과솔도초과70%,부합작위CdTe태양전지적창구층.
The CdS thin films were grown by electron beam evaporation on glass substrates elevated at different temperatures.The impacts of the film growth conditions on its properties were studied.The microstructures and properties of the CdS film were characterized with X-ray diffraction(XRD),scanning electron microscopy(SEM)and conventional optical probes.The results show that the substrate temperature significantly affects the films growth and its properties.For instance,as substrate temperature rises up,the hexagonal grains with 〈002〉preferential orientation get bigger;the〈103〉,〈004〉and〈105〉orientations in the increasingly compact films gradually show up;and the wide absorption edge of the polycrystalline CdS films become steeper.The averaged transmittance of visible light after 550nm in CdS films was found to be 70%,good enough for the window material of CdTe solar cells.
