红外与毫米波学报, 2005, 24 (2): 84, 网络出版: 2006-05-10
不同尺寸ZnS:Mn纳米粒子的静压光致发光研究
INVESTIGATION OF PHTOLUMINESECENCE UNDER HYDROSTATIC PRESSURE IN DIFFERENT SIZED ZnS:Mn NANOPARTICLES
摘要
测量了ZnS:Mn纳米粒子以及相应体材料在不同压力下的光致发光谱.随压力增大,来源于Mn2+离子的4T1-6A1跃迁的桔黄色发光明显红移.体材料和10,4.5,3.5,3 nm的ZnS:Mn纳米粒子中Mn2+发光的压力系数分别是-29.4±0.3和-30.1±0.3,-33.3±0.6,-34.6±0.8,-39±1 meV/GPa,压力系数的绝对值随粒子尺寸减小而增大,该种尺寸关系由晶体场场强Dq和Racah参数B值的尺寸依赖性引起.1nm样品的Mn2+发光的特殊压力行为是因为样品的粒子尺寸比较小,另外,分布在Y型沸石中的纳米粒子的表面状况也不同于其它样品.
Abstract
The PL spectra for the 10, 4.5, 3.5, 3,1nm sized ZnS:Mn~2+ nanoparticles and corresponding bulk material under different pressures were investigated. The orange emission band originated from the 4T 1-6A 1 transition of Mn~2+ ions showed obvious red shift with the increasing of pressures. The pressure coefficients of Mn-related emissions measured from bulk, 10, 4.5, 3.5 and 3nm samples are -29.4±0.3, -30.1±0.3, -33.3±0.6, -34.6±0.8 and -39±1 meV/GPa, respectively. The absolute value of the pressure coefficient increases with the decrease of the size of particles. The size dependence of crystal field strength Dq and Racah parameter B accounts for the size behavior of the Mn-related emission in ZnS:Mn nanoparticles. The pressure behavior of Mn-related emission in the 1 nm sized sample is somewhat different from that of other nanoparticles. It may be due to smaller size of 1 nm sample and the special surface condition since ZnS nanoparticles are formed in the cavities of ziolite-Y for the 1 nm sample.
苏付海, 马宝珊, 丁琨, 李国华, CHEN Wei. 不同尺寸ZnS:Mn纳米粒子的静压光致发光研究[J]. 红外与毫米波学报, 2005, 24(2): 84. 苏付海, 马宝珊, 丁琨, 李国华, CHEN Wei. INVESTIGATION OF PHTOLUMINESECENCE UNDER HYDROSTATIC PRESSURE IN DIFFERENT SIZED ZnS:Mn NANOPARTICLES[J]. Journal of Infrared and Millimeter Waves, 2005, 24(2): 84.