功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
16期
16056-16060
,共5页
岳之浩%沈鸿烈%蒋晔%陈伟龙%唐群涛%商威
嶽之浩%瀋鴻烈%蔣曄%陳偉龍%唐群濤%商威
악지호%침홍렬%장엽%진위룡%당군도%상위
Ag辅助化学腐蚀法%单晶硅%微结构%反射率
Ag輔助化學腐蝕法%單晶硅%微結構%反射率
Ag보조화학부식법%단정규%미결구%반사솔
Ag-assisted chemical etching method%single-crystalline silicon%microstructure%reflectance
采用 Ag 辅助化学腐蚀法在不同 H2 O2浓度、腐蚀温度和腐蚀时间条件下制备了单晶黑硅微结构,并系统地研究了这种微结构对表面反射率的影响规律。采用场发射扫描电子显微镜对样品形貌进行了观察,并利用分光光度计对样品的表面反射率进行了测试,最终采用陷光模型对黑硅微结构与其反射率的关系进行了深入分析。发现当腐蚀液为7.8 mol/L HF和0.6 mol/L H2 O2混合液、腐蚀温度为20℃以及腐蚀时间为90 s 时,所制备黑硅的腐蚀深度为900 nm,其表面平均反射率为0.98%(400~900 nm)。
採用 Ag 輔助化學腐蝕法在不同 H2 O2濃度、腐蝕溫度和腐蝕時間條件下製備瞭單晶黑硅微結構,併繫統地研究瞭這種微結構對錶麵反射率的影響規律。採用場髮射掃描電子顯微鏡對樣品形貌進行瞭觀察,併利用分光光度計對樣品的錶麵反射率進行瞭測試,最終採用陷光模型對黑硅微結構與其反射率的關繫進行瞭深入分析。髮現噹腐蝕液為7.8 mol/L HF和0.6 mol/L H2 O2混閤液、腐蝕溫度為20℃以及腐蝕時間為90 s 時,所製備黑硅的腐蝕深度為900 nm,其錶麵平均反射率為0.98%(400~900 nm)。
채용 Ag 보조화학부식법재불동 H2 O2농도、부식온도화부식시간조건하제비료단정흑규미결구,병계통지연구료저충미결구대표면반사솔적영향규률。채용장발사소묘전자현미경대양품형모진행료관찰,병이용분광광도계대양품적표면반사솔진행료측시,최종채용함광모형대흑규미결구여기반사솔적관계진행료심입분석。발현당부식액위7.8 mol/L HF화0.6 mol/L H2 O2혼합액、부식온도위20℃이급부식시간위90 s 시,소제비흑규적부식심도위900 nm,기표면평균반사솔위0.98%(400~900 nm)。
In this study,single-crystalline black silicon microstructures were fabricated by Ag-assisted chemical etching method under different H2 O2 concentration,etching temperature and etching time.Besides,the effects of the black silicon microstructures on the surface reflectance were systematically studied.Scanning electron mi-croscope and spectrophotometer were used to observe the microstructures and to test the surface reflectance,re-spectively.In addition,the relation between the microstructures and reflectance was deeply investigated by u-sing two light-trapping models.Finally,single-crystalline black silicon with average reflectance of 0.98% from 400 to 900 nm was obtained by etching in a 7.8 mol/L HF and 0.6 mol/L H2 O2 mixed solution for 90 s at 20 ℃resulting in an etching depth of 900 nm.
