134 resultados para 111-677
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采用AlN插入层技术在Si(111)衬底上实现无微裂GaN MOCVD生长.通过对GaN外延层的a,c轴晶格常数的测量,得到了GaN所受张应力与AlN插入层厚度的变化关系.当AlN厚度在7~13nm范围内,GaN所受张应力最小,甚至变为压应力.因此,GaN微裂得以消除.同时研究了AlN插入层对GaN晶体质量的影响,结果表明,许多性能相比于没有AlN插入层的GaN样品有明显提高.
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利用衍衬、SAED、HRTEM对在(111)Si上外延生长的六方GaN进行了观察分析。GaN外延层与缓冲层和基底的取向关系为(0001)_(GaN)∥(0001)_(AlN)∥(111)_(Si),[11(2-bar)0]_(GaN)∥[11(2-bar)0]_(AlN)∥[110]_(Si)。GaN外延层中存在倒反畴。GaN中位错以刃型位错为主。In_(0.1) Ga_(0.9) N/GaN的多重量子阱结构(MQW)具有阻挡穿透位错,降低位错密度的作用。
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国家973计划
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于2010-11-23批量导入
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于2010-11-23批量导入
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采用质量分离的低能双离子束淀积(IBD)技术,在硅(111)衬底上共淀积,生长了氧化铈外延薄膜。椭圆偏振仪测得,膜厚2000A。俄歇能谱仪测得,外延层内铈、氧分布均匀,具有很好的正化学比。X射线双晶衍射得到明显的氧化铈(111),(222)峰,半高宽≤23''。
Microstructural and compositional characteristics of GaN films grown on a ZnO-buffered Si(111) wafer
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Polycrystalline GaN thin films have been deposited epitaxially on a ZnO-buffered (111)-oriented Si substrate by molecular beam epitaxy. The microstructural and compositional characteristics of the films were studied by analytical transmission electron microscopy (TEM). A SiO2 amorphous layer about 3.5 nm in thickness between the Si/ZnO interface has been identified by means of spatially resolved electron energy loss spectroscopy. Cross-sectional and plan-view TEM investigations reveal (GaN/ZnO/SiO2/Si) layers exhibiting definite a crystallographic relationship: [111](Si)//[111](ZnO)//[0001](GaN) along the epitaxy direction. GaN films are polycrystalline with nanoscale grains (similar to100 nm in size) grown along [0001] direction with about 20degrees between the (1 (1) over bar 00) planes of adjacent grains. A three-dimensional growth mode for the buffer layer and the film is proposed to explain the formation of the as-grown polycrystalline GaN films and the functionality of the buffer layer. (C) 2004 Elsevier Ltd. All rights reserved.
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The growth of wurtzite GaN by low-pressure metalorganic vapor-phase epitaxy on (1 1 1) magnesium aluminate (MgAl2O4) substrates have been studied. The morphological, crystalline, electrical and optical properties are investigated. A p-n junction GaN LED was fabricated on the MgAl2O4 substrate. (C) 1998 Elsevier Science B.V. All rights reserved.
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A polycrystalline silicon thin film was fabricated on glass substrate by means of aluminum induced crystallization (AIC). Al and alpha-Si layers were deposited by magnetron sputtering respectively and annealed at 480A degrees C for 1 h to realize layer exchange. The polycrystalline silicon thin film was continuous and strongly (111) oriented. By analyzing the structure variation of the oxidation membrane and lattice mismatch between gamma-Al2O3 and Si, it was concluded that aluminum promoted the formation of (111) oriented silicon nucleus by controlling the orientation of gamma-Al2O3, which was formed at the early stage of annealing.