激子位置不同微腔有机电致发光器件性能模拟

微腔有机电致发光器件(MOLED)的发光特性直接与微腔的结构相关,可以根据微腔器件的相关计算公式,运用传输矩阵法对MOLED进行模拟设计。本文对微腔总长度L=λ/2(λ:中心波长)不变情况下,激子在微腔内不同位置复合发光的电致发光(EL)光谱性能进行模拟并比较。结果表明:发光谱的峰值都在所设计的中心波长520nm处,半峰全宽(FWHM)都是17nm,激子处在微腔的中心区域时,峰值强度和积分强度都是最大,这是因为激子此时位于腔内电场的最大值处,偏离此处的两侧逐渐变小。以上结果表明:要制作出高效率的MOLED,必须使激子处于微腔内的最佳位置处。

Simulation of Microcavity Organic Light-emitting Device at Different Exciton Positions

The light-emitting characteristics of microcavity organic light-emitting device (MOLED) is directly related to the structure of microcavity, MOLED can be simulated by using transfer matrix method according to the related calculation formula of microcavity device. Under the unchangeable circumstances of the total length of microcavity L=λ/2(λ is the center wavelength), this paper simulates and compares with the functions of composite light emitting EL when exciton is in different positions of microcavity. The result shows that peaks of electroluminescence spectrum are all in the 520 nm of designed center wavelength, the full wavelength of half maximum (FWHM) are all 17 nm. The peak intensity and integral intensity are the biggest when exciton is in the central area of microcavity. Because now the exciton is at the maximum position of the electric field which is in the microcavity, both sides became smaller and smaller when exciton deviates from this position. It illustrates that you have to make exciton at the best position of microcavity if you want to create an efficient MOLED.