机译:用Au纳米蛋白的原子层沉积和表面官能化用于感测应用的超薄TiO2膜
Univ Kiel Fac Engn Inst Mat Sci Chair Funct Nanomat Kaiserstr 2 D-24143 Kiel Germany;
Tech Univ Moldova Dept Microelect &
Biomed Engn 168 Stefan Cel Mare Av MD-2004 Kishinev Moldova;
Tech Univ Moldova Dept Microelect &
Biomed Engn 168 Stefan Cel Mare Av MD-2004 Kishinev Moldova;
Fraunhofer Inst Silicon Technol ISIT Fraunhoferstr 1 D-25524 Itzehoe Germany;
Univ Kiel Fac Engn Inst Mat Sci Chair Funct Nanomat Kaiserstr 2 D-24143 Kiel Germany;
Univ Kiel Fac Engn Inst Mat Sci Chair Funct Nanomat Kaiserstr 2 D-24143 Kiel Germany;
Univ Kiel Fac Engn Inst Mat Sci Chair Multicomponent Mat Kaiserstr 2 D-24143 Kiel Germany;
Tech Univ Moldova Dept Microelect &
Biomed Engn 168 Stefan Cel Mare Av MD-2004 Kishinev Moldova;
Univ Kiel Fac Engn Inst Elect Engn &
Informat Technol Kaiserstr 2 D-24143 Kiel Germany;
Univ Kiel Fac Engn Inst Mat Sci Chair Multicomponent Mat Kaiserstr 2 D-24143 Kiel Germany;
Univ Kiel Fac Engn Inst Mat Sci Chair Funct Nanomat Kaiserstr 2 D-24143 Kiel Germany;
TiO2; Ultra-thin films; Atomic layer deposition; Gas sensor; UV photodetector;
机译:用Au纳米蛋白的原子层沉积和表面官能化用于感测应用的超薄TiO2膜
机译:InAs(100)表面TiO2薄膜的原子层沉积(ALD)过程中的铟扩散和自然氧化物去除
机译:用于光催化应用的TiO2-xNx薄膜的原子层沉积
机译:用于光学应用的TiO2 / Al2O3膜的原子层沉积
机译:通过原子层沉积(ALD)在质子交换膜燃料电池(PEMFCs)中制造的Au纳米颗粒(NPS)/超薄TiO2消除CO毒物作用
机译:膜厚对原子层沉积超薄TiO2薄膜气敏特性的影响
机译:膜厚度对原子层沉积沉积的超薄TiO2薄膜气体传感性能的影响