杜在发，讲师，毕业于北京工业大学电子科学与技术专业，获得博士学位；研究方向为半导体Micro-LED效率提升和显示方向应用。

参与项目与获奖：

1. 国家自然科学基金 ：GaN外延片直接CVD生长免转移石墨烯及其在 LED 中的电极和散热应用（2018年-2022年）;

2. 国家自然科学基金 ：GaN外延片直接CVD生长免转移石墨烯（2017年-2020年）

发表论文与获批专利：

Z. Du, J. Nie, D. Li. et al. Deep reactive ion etching of silicon using nonICPbased equipment. Applied Physics A, vol.126, no.540, pp.1-7, 2020.

Z. Du, D. Li. W. Guo. et al. Quantum dot color conversion efficiency enhancement in micro-light-emitting diodes by non-radiative energy transfer. IEEE Electron Device Letters, vol.42, no.8, pp.1184-1187, 2021.

Z. Du, W. Guo. L. Wang. et al. Ultra close range localized surface plasmon coupling with multiple quantum well towards photoluminescence intensity enhancement of Micro-LED. Conference on Lasers and Electro-Optics (CLEO), AM4Q.3, 2021.

Z. Du, H. Feng. Y. Liu. et al. Localized surface plasmon coupling nanorods with graphene as a transparent conductive electrode for micro light-emitting diodes. IEEE Electron Device Letters, vol.43, no.12, pp.2133-2136, 2022.

Z. Du, E. Chen. H. Feng. et al. Efficiency improvement of GaN-based micro-light-emitting diodes embedded with Ag NPs into a periodic arrangement of nano-hole channel structure by ultra close range localized surface plasmon coupling. Nanotechnology, vol.33,495202, 2022.

Z. Du, K. Wang. J. Sun. et al. Ultrahigh color conversion efficiency nano-light-emitting diode with single electrical contact. IEEE Transactions on Electron Devices, vol.70, no.3, pp.1156-1161, 2023.

Z. Du, J. Sun, H. Feng. et al. Efficiency enhancement of microlightemitting diode with shrinking size by localized surface plasmons coupling. Applied Physics B, vol.130, no.36, pp.1-6, 2024.

A. Fang, P. Tang, Y. Xie, Z. Du*. et al. High color conversion efficiency realized in graphene-connected nanorod micro-LEDs using hybrid Ag nanoparticles and quantum dots. Advanced Optical Materials, in press, 2000230, 2024.