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LED用石墨烯复合透明电极厚度组合的仿真与优化
引用本文:张淑芳,钱明灿,罗海军,龙兴明,闫泉喜,郭扬,钟将. LED用石墨烯复合透明电极厚度组合的仿真与优化[J]. 半导体光电, 2019, 40(4): 506-512
作者姓名:张淑芳  钱明灿  罗海军  龙兴明  闫泉喜  郭扬  钟将
作者单位:重庆大学计算机学院,重庆400044;重庆电子工程职业学院,重庆401331;重庆师范大学物理与电子工程学院光电功能材料重庆重点实验室,重庆,401331;重庆长安汽车股份有限公司,重庆,400023;重庆大学计算机学院,重庆,400044
基金项目:国家“863”计划项目(2015AA034801);光电功能材料重庆重点实验室开放课题(CS201807).
摘    要:为降低石墨烯(Gr)透明电极与p-GaN之间的肖特基势垒与接触电阻,进行了将银、金、镍和铂四种金属或氧化镍作为中间层引入它们两者之间的尝试。使用有限元方法模拟研究了Gr与金属或氧化镍的不同厚度组合对LED的光、热和电特性的影响。发现:透明导电层的透光率和LED芯片的表面温度均随石墨烯和金属或氧化镍厚度的增加而降低;1.5nm的Ag、Ni、Pt,1nm Au或1nm的NiOx分别与3层(3L)Gr复合时为优化厚度组合,其中,1.5nm Ni/3L Gr为最佳Gr/金属复合透明电极。

关 键 词:有限元方法  石墨烯  复合透明电极  温度分布  发光二极管
收稿时间:2019-03-22

Simulation and Optimum of Thickness Combination of Graphene Composite Transparent Electrode for GaN-LED
ZHANG Shufang,QIAN Mingcan,LUO Haijun,LONG Xingming,YAN Quanxi,GUO Yang and ZHONG Jiang. Simulation and Optimum of Thickness Combination of Graphene Composite Transparent Electrode for GaN-LED[J]. Semiconductor Optoelectronics, 2019, 40(4): 506-512
Authors:ZHANG Shufang  QIAN Mingcan  LUO Haijun  LONG Xingming  YAN Quanxi  GUO Yang  ZHONG Jiang
Affiliation:School of Computing, Chongqing University, Chongqing 400044, CHN;Chongqing College of Electron.Engin., Chongqing 401331, CHN,Chongqing Key Lab.of Photo-Electric Functional Materials, College of Phys.and Electron.Engin., Chongqing Normal University, Chongqing 401331, CHN,Chongqing Key Lab.of Photo-Electric Functional Materials, College of Phys.and Electron.Engin., Chongqing Normal University, Chongqing 401331, CHN,Chongqing Key Lab.of Photo-Electric Functional Materials, College of Phys.and Electron.Engin., Chongqing Normal University, Chongqing 401331, CHN,Chongqing Key Lab.of Photo-Electric Functional Materials, College of Phys.and Electron.Engin., Chongqing Normal University, Chongqing 401331, CHN,Chongqing ChangAn Automobile Co.Ltd., Chongqing 400023, CHN and School of Computing, Chongqing University, Chongqing 400044, CHN
Abstract:In order to reduce the Schottky barrier height and sheet resistance between graphene (Gr) transparent electrodes and the p-GaN layers in the GaN-based light-emitting diodes (LEDs), the ultra-thin films of four metals (Ag, Au, Ni and Pt) or one oxide (NiOx) were introduced as a bridge layer between Gr and p-GaN, respectively. The influence of different thickness combinations of Gr and metal or nickel oxide on the optical, thermal and electrical properties of LED were simulated and analyzed by finite element method. It reveals that both the transmittance of the transparent conductive layer and the surface temperature of LED chip decrease with the increase of the thickness of Gr and metal or oxide films. Based on analyzing the electrical and thermal performance of LEDs, it is found that 1.5nm Ag, Ni or Pt, but 1nm Au and NiOx respectively combined with 3-layered (L) Gr are the optimal thickness combination, among which 1.5nm Ni/3L Gr is the best Gr/metal composite transparent electrode.
Keywords:finite element methods   graphene   composite transparent electrode   temperature distribution   light-emitting diodes
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