\begin{document}$ \Omega/\Box $\end{document}, and the sheet resistance of the three-layer graphene/ITO composite transparent electrode is reduced to 70.1 \begin{document}$ \Omega/\Box $\end{document}. The specific contact resistance between the three-layer pristine graphene transparent electrode and the p-GaN layer is 1.92 × 10–2 Ω·cm2, after the ITO being inserted, the specific resistance is reduced to 1.01 × 10–4 Ω·cm2. Based on the three-layer graphene transparent electrode LED, the forward voltage is 4.84 V at an injection current of 20 mA, while the forward voltage of the three-layer graphene/ITO composite transparent electrode LED is reduced to 2.80 V; under small currents, the ideal factor of the three-layer graphene/ITO composite transparent electrode LED is less than that of the three-layer graphene transparent electrode LED. In addition, with the current increasing, the luminous intensity of the three-layer graphene/ITO composite transparent electrode LED increases, so does the radiant flux, which is because the addition of the ITO thin layer reduces the barrier height at the interface between the three layers of graphene and p-GaN, and the sheet resistance of the composite transparent electrode is also reduced, thereby improving the Ohmic contact between graphene and p-GaN. At the same time, the current spread is more uniform. The composite transparent electrode uses the much less ITO and obtains better optoelectronic performance, and thus providing a feasible solution for the LED transparent electrode."> - 必威体育下载

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    Guo Wei-Ling, Deng Jie, Wang Jia-Lu, Wang Le, Tai Jian-Peng
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    • Abstract views:9708
    • PDF Downloads:115
    • Cited By:0
    Publishing process
    • Received Date:26 June 2019
    • Accepted Date:04 October 2019
    • Available Online:27 November 2019
    • Published Online:01 December 2019

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