半导体技术
半導體技術
반도체기술
SEMICONDUCTOR TECHNOLOGY
2010年
5期
427-430,461
,共5页
射频磁控溅射%掺锡氧化铟%透过率%电流扩散层%阈值电压
射頻磁控濺射%摻錫氧化銦%透過率%電流擴散層%閾值電壓
사빈자공천사%참석양화인%투과솔%전류확산층%역치전압
RF magnetron sputtering%ITO%transmittance%current spreading layer%forward voltage
基于本实验室的实验条件,采用射频磁控溅射、等离子干法刻蚀等技术成功制备出具有ZnO:Ga(GZO)透明电极的LED芯片.实验研究了相同工艺条件制备的ITO透明电极LED芯片和GZO透明电极LED芯片,对比实验结果表明GZO薄膜沉积工艺简单,其器件性能与ITO电极LED相当.相同条件下制备的GZO薄膜可见光波段透过率约90%,而ITO仅为75%.实验室制备的LED器件均具有较高的阈值电压,一方面p-GaN与ZnO的禁带宽度相差4.13 eV,接触势垒大,另一方面器件制备过程中的等离子体损伤薄膜表面和器件性能.
基于本實驗室的實驗條件,採用射頻磁控濺射、等離子榦法刻蝕等技術成功製備齣具有ZnO:Ga(GZO)透明電極的LED芯片.實驗研究瞭相同工藝條件製備的ITO透明電極LED芯片和GZO透明電極LED芯片,對比實驗結果錶明GZO薄膜沉積工藝簡單,其器件性能與ITO電極LED相噹.相同條件下製備的GZO薄膜可見光波段透過率約90%,而ITO僅為75%.實驗室製備的LED器件均具有較高的閾值電壓,一方麵p-GaN與ZnO的禁帶寬度相差4.13 eV,接觸勢壘大,另一方麵器件製備過程中的等離子體損傷薄膜錶麵和器件性能.
기우본실험실적실험조건,채용사빈자공천사、등리자간법각식등기술성공제비출구유ZnO:Ga(GZO)투명전겁적LED심편.실험연구료상동공예조건제비적ITO투명전겁LED심편화GZO투명전겁LED심편,대비실험결과표명GZO박막침적공예간단,기기건성능여ITO전겁LED상당.상동조건하제비적GZO박막가견광파단투과솔약90%,이ITO부위75%.실험실제비적LED기건균구유교고적역치전압,일방면p-GaN여ZnO적금대관도상차4.13 eV,접촉세루대,령일방면기건제비과정중적등리자체손상박막표면화기건성능.
LED chips with ZnO:Ga (GZO) transparent current spreading layer were prepared.Technologies such as RF magnetron sputtering and plasma dry etching were used in the experiments.Comparison of LED chips with ITO transparent current spreading layer were also made.What's more,chips with GZO electrode are almost the same as those with ITO electrode.Transmittance of GZO deposited by RF magnetron sputtering is as hish as 90%in the visual spectral;in contrast,ITO deposited by DC magnetron sputtering is only about 75%.It seems that high transmittance conductive thin film is easier to be realized by GZO than ITO.However,chips made in the lab show high forward voltage (VF).Both of the band energy difference between p-GaN and ZnO and the damage made by plasma in the experiments contribute to the high forward voltage ofthe chips.
