Durability of Ultra-Thin Silver Films and Silver-Gold Alloy Films under UV Irradiation  

作　　者：周明 蔡渊 李耀鹏 刘定权 

机构地区：[1]Shanghai Institute of Technical Physics,Chinese Academy of Sciences [2]School of Physical Science and Technology,Shanghai Tech University

出　　处：《Chinese Physics Letters》2016年第10期124-127,共4页中国物理快报（英文版）

基　　金：Supported by the National Natural Science Foundation of China under Grant No 61308070

摘　　要：Silver films fag） and silver-gold films （Ag-A u） with thickness -15 nm are coated on Bk 7 glasses through thermal evaporation. After doping gold of 5.2%, the grain size of the Ag film reduces from 13.6nm to 9.1 nm, also the surface roughness decreases from 1.45nm to 0.94nm. A UV lamp is used as the irradiation light source to accelerate the corrosion process in the atmosphere. After 17h irradiation, the pure silver film surface turns dark, and the transmittances reduce from 35Onto to 500nm, while the Ag-Au film degrades much less, almost negligibly after UV radiation. Additional x-ray photoelectron spectroscopy and atomic force micrographs data are provided to show atomic content of films and their surface morphologies. It is suggested that small grain size and high packing density of alloy film prevent reaction of silver with oxygen in the atmosphere, which leads to high stability of the Ag-Au film.Silver films fag） and silver-gold films （Ag-A u） with thickness -15 nm are coated on Bk 7 glasses through thermal evaporation. After doping gold of 5.2%, the grain size of the Ag film reduces from 13.6nm to 9.1 nm, also the surface roughness decreases from 1.45nm to 0.94nm. A UV lamp is used as the irradiation light source to accelerate the corrosion process in the atmosphere. After 17h irradiation, the pure silver film surface turns dark, and the transmittances reduce from 35Onto to 500nm, while the Ag-Au film degrades much less, almost negligibly after UV radiation. Additional x-ray photoelectron spectroscopy and atomic force micrographs data are provided to show atomic content of films and their surface morphologies. It is suggested that small grain size and high packing density of alloy film prevent reaction of silver with oxygen in the atmosphere, which leads to high stability of the Ag-Au film.

关 键 词：AG in of NM UV 

分 类 号：O484[理学—固体物理]