长聘教授/博导 电子与电气工程系
毕业于华南理工大学(学士2005)、中山大学(硕士2008)、香港科技大学(博士2012)。2013年加入南方科技大学,2024年晋升为长聘教授。长期从事QLED/OLED等电致发光显示技术的研究,在QLED/OLED器件工程、器件物理、器件应用等方面积累了较扎实的研究基础,并做出一系列原创性和系统性的研究。主持国家自然科学基金(3项)、国家重点研发计划课题任务(2项)、广东省杰出青年基金等10多个项目。作为第一作者/通讯作者,在Nature Communications (4), Advanced Materials (3), ACS Nano (2) 等知名期刊发表文章150多篇,引用超过11000次,H-index 55 。作为第一完成人,成果获深圳市青年科技奖、深圳市自然科学奖、中国电子学会自然科学奖、中国发明协会发明创业奖创新奖等。入选Research.Com Best Scientists in the discipline of Electronics and Electrical Engineering and Materials Science榜单。任Nano Research, Nano-Micro Letters, Nanomaterials, Electronics等期刊编委、客座编辑等。
教育经历
2008.08 – 2012.08,香港科技大学,博士(电子与计算机工程)
2005.09 – 2008.07,中山大学,硕士(光学工程)
2001.09 – 2005.07,华南理工大学,学士(光电子)
工作经历
2024.05 – 至今,南方科技大学电子与电气工程系,教授(with tenure)、博导
2018.11 – 2024.05,南方科技大学电子与电气工程系,副教授(with tenure)、研究员、博导
2013.05 – 2018.11,南方科技大学电子与电气工程系,助理教授(tenure-track)、副研究员、博导
2012.09 – 2013.05,香港科技大学显示技术研究中心,博士后
2012.09 – 2013.05,广东中显科技有限公司,高级工程师
获奖&荣誉(科研)
2024,中国发明协会发明创业奖创新奖二等奖(第一完成人)
2023,中国电子学会自然科学奖三等奖(第一完成人)
2020,深圳市自然科学奖二等奖(第一完成人)
2017,深圳市青年科技奖(个人奖)
2017,南方科技大学 “杰出科研奖”
2016,南方科技大学首届“青年科研奖”
2013,香港科学会“青年科学家奖”
2018,量子点化学﹑物理与应用研讨会“墙报金奖”
2018,国际信息显示学会“杰出论文奖”
2017,国际信息显示学会“杰出论文奖”
2016,广东省自然科学“杰出青年”基金获得者
2015,广东省高校“优秀青年教师”培养计划入选者
2014,广东省首批特支计划科技创新“青年拔尖人才”入选者
2013,深圳市海外高层次人才“孔雀计划”(B类)入选者
获奖&荣誉(教育)
2024,第十二届全国大学生光电设计竞赛东南区赛“优秀指导教师”
2022,南方科技大学 “优秀研究生导师奖”
2022,南方科技大学 “优秀博士学位论文指导老师”
2022,南方科技大学“首届良师益友优秀研究生导师”
2018,南方科技大学 “优秀导师奖”
2016,南方科技大学“树仁书院年度导师奖”
研究领域
量子点发光二极管(QLED)、有机发光二极管(OLED)等新型光电子器件的器件工程、器件物理及其在显示、照明中的应用。
团队概况
目前课题组有博士生6名、硕士生5名、助理1名、本科生若干名。自2013年来,课题组的学生曾先后获得:
- 国家奖学金(2013级本科冯渊翔、2014级本科王思婷、2019级硕士陈子楠、2021级硕士李浩涛、2018级博士张恒、2019级博士苏强)
- 广东省优秀学生(2019级博士苏强)
- 南科大十佳本科毕业生(2013级本科冯渊翔、2014级本科王思婷)
- 南科大十佳研究生毕业生(2019级博士苏强)
- 首届南科大优秀研究生毕业生(2016级硕士纪婷婧)
- 工学院十佳研究生毕业生(2018级博士张恒)
- 南科大优秀博士学位论文(2018级博士张恒)
硕士毕业生多就职于华为(2018级硕士宿思凯、2020级硕士周世明、2020级硕士覃致远、2015级博士孙艺哲)、TCL华星光电(2016级硕士纪婷婧、2017级硕士金爽、2019级硕士陈练娜)、VIVO(2019级硕士石亮亮)等高科技企业,博士毕业生多获聘为广西大学副教授(2018级博士张恒)、深圳技术大学、大湾区大学助理教授(2019级博士苏强)等。
欢迎刻苦勤奋、严格自律、积极上进、持之以恒、勇于探索的同学加入本课题组!
代表论文
- Qiang Su, Zinan Chen, Shuming Chen*, “Tracing the Electron Transport Behavior in Quantum-Dot Light-Emitting Diodes via Single Photon Counting Technique”, Nature Communications, 15, 8150 (2024). Editors’ Highlight
- Jiming Wang, Cuixia Yuan, Shuming Chen*, “Household AC Electricity Plug-and-Play Quantum-Dot Light-Emitting Diodes”, Nature Communications, 15, 3512 (2024). Editors’ Highlight
- Qiang Su, Shuming Chen*, “Thermal Assisted Up-Conversion Electroluminescence in Quantum Dot Light Emitting Diodes”, Nature Communications, 13, 369 (2022). ESI highly cited
- Heng Zhang, Qiang Su, Shuming Chen*, “Quantum-Dot and Organic Hybrid Tandem Light-Emitting Diodes with Multi-Functionality of Full-Color-Tunability and White-Light-Emission”, Nature Communications, 11, 2826 (2020).
- Peili Gao, Zinan Chen, Shuming Chen*, “Electron-Induced Degradation in Blue Quantum-Dot Light-Emitting Diodes”, Advanced Materials, 36, 2309123 (2024).
- Heng Zhang, Jiming Wang, Shuming Chen*, “220 V/50 Hz Compatible Bipolar Quantum-Dot Light-Emitting Diodes”, Advanced Materials, 36, 2312334 (2024).
- Xiaoli Zhang, He Liu, Weigao Wang, Jinbao Zhang, Bing Xu, Ke Lin Karen, Yuanjin Zheng, Sheng Liu, Shuming Chen*, Kai Wang, Xiao Wei Sun*, “Hybrid Perovskite Light-Emitting Diodes Based on Perovskite Nanocrystals with Organic-Inorganic Mixed Cations”, Advanced Materials, 29, 1606405 (2017). ESI highly cited
- Heng Zhang, Xiaowei Sun, Shuming Chen*, “Over 100 cd/A Efficient Quantum Dot Light-Emitting Diodes with Inverted Tandem Structure”, Advanced Functional Materials, 27, 1700610 (2017). Cover Article
- Heng Zhang, Xiaowei Sun, Shuming Chen*, “Efficient Red/Green/Blue Tandem Quantum-Dot Light-Emitting Diodes with External Quantum Efficiency Exceeding 21%”, ACS Nano, 12, 697-704 (2018). ESI highly cited, Featured by Advances in Engineering
- Yizhe Sun, Qiang Su, Heng Zhang, Fei Wang, Shengdong Zhang*, Shuming Chen*, “Investigation on Thermally Induced Efficiency Roll-Off: Toward Efficient and Ultrabright Quantum-Dot Light-Emitting Diodes”, ACS Nano, 13, 11433-11442 (2019).
- Cuixia Yuan, Zinan Chen, Fengshou Tian, Shuming Chen*, “Very Stable and Efficient Tandem Quantum-Dot Light-Emitting Diodes Enabled by IZO-Based Interconnecting Layers”, Nano Letters, 24, 7541–7547 (2024). Featured by Advances in Engineering
- Qiang Su, Yizhe Sun, Heng Zhang, Shuming Chen*, “Origin of Positive Aging in Quantum-Dot Light-Emitting Diodes”, Advanced Science, 5, 1800549 (2018). Cover Article
- Lianna Chen, Zhiyuan Qin, Shuming Chen*, “Ultrahigh Resolution Pixelated Top-Emitting Quantum-Dot Light-Emitting Diodes Enabled by Color-Converting Cavities”, Small Methods, 2101090, (2021). Editor’s Choice and Cover Article
- Haotao Li, Shiming Zhou, Shuming Chen*, “Highly Efficient Top-Emitting Quantum-Dot Light-Emitting Diodes with Record-Breaking External Quantum Efficiency of over 44.5%”, Laser & Photonics Reviews, 17(8), 2300371 (2023).
- Qiang Su, Heng Zhang, Shuming Chen*, “Flexible and tandem quantum-dot light-emitting diodes with individually addressable red/green/blue emission”, npj Flexible Electronics, 5, 8 (2021).
- Xiaoli Zhang, Weigao Wang, Bing Xu, Sheng Liu, Haitao Dai, Dun Bian, Shuming Chen*, Kai Wang*, Xiao Wei Sun*, “Thin film perovskite light-emitting diode based on CsPbBr3 powders and interfacial engineering”, Nano Energy, 37, 40-45 (2017).
- Hung-Chia Wang#, Heng Zhang#, Hao-Yue Chen, Han-Cheng, Yeh, Mei-Rurng Tseng, Ren-Jei Chung*, Shuming Chen*, Ru-Shi Liu*, “Cadmium-free InP/ZnSeS/ZnS Heterostructured-Based Quantum Dot Light-emitting Diodes with ZnMgO Electron Transport Layer and a Brightness of over 10000 cd/m2”, Small, 13, 1603962 (2017).
- Hung-Chia Wang, Weigao Wang, An-Cih Tang, Hsin-Yu Tsai, Zhen Bao, Toshiyuki Ihara, Naoki Yarita, Hirokazu Tahara, Yoshihiko Kanemitsu*, Shuming Chen*, and Ru-Shi Liu*, “High-Performance CsPb1-xSnxBr3 Perovskite Quantum Dots for Light-Emitting Diodes”, Angewandte Chemie International Edition, 129, 13838-13842 (2017).
- Shuming Chen, Guiping Tan, Wai-Yeung Wong and Hoi Sing Kwok, “White organic light-emitting diodes with evenly separated red, green and blue colors for efficiency/color rendition trade-off optimization”, Advanced Functional Materials, 21, 3785-3793 (2011).
个人简介
研究领域
量子点发光二极管(QLED)、有机发光二极管(OLED)等新型光电子器件及其在显示、照明中的应用。
Colloidal Quantum Dot Light-Emitting Diodes (QLED) have attracted considerable interest in recent years because of their advantages of high color saturation, tunable emission color and inherent high stability, which make them promising candidates for next generation displays. We focus on developing efficient and stable QLED devices through designing novel structures, engineering critical interfaces, studying device physics and developing novel fabrication processes.
Topics under investigation include:
Device Engineering. Novel device structures such as microcavity, top-emitting, tandem, inverted, transparent, flexible, white-emission, light-coupling, etc.
Device Physics. Carrier injection and transport, charge balance, exciton dynamic, degradation mechanism, interfacial physics, etc.
Device Fabrication Techniques. Low-cost fabrication techniques including all-solution processing, ink-jet printing, transferring, laminating, etc.
教学
EE204:半导体器件物理(春季)
EE204: Semiconductor Device Physics (Spring Semester)
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EE322: 光电器件工艺实践(春季)
EE322: Optoelectronic Devices Fabrication Laboratory(Spring Semester)
Part 1: To introduce the clean room, high vacuum, thin film deposition (including sputtering, thermal evaporation, e-beam evaporation, plasma enhanced chemical vapor deposition, spin coating), thin film patterning (including photolithography, laser direct writing, screen printing, inkjet printing),etching and other fundamental fabrication processes. Thin film characterization techniques including transmission, reflection, absorption, resistivity, thickness, surface morphology are also covered.
Part 2: To introduce the working mechanisms, the fabrication processes and the characterization techniques of various optoelectronic devices including organic light-emitting diodes (OLED), quantum dot light-emitting diodes (QLED), photovoltaic (solar) cells, thin-film transistors (TFT) and etc.
Part 3: Laboratory course requires hands-on work in fabricating and characterizing various thin films and devices including OLED, QLED, OPV and TFT. Process modules including sputtering, thermal evaporation, e-beam evaporation, plasma enhanced chemical vapor deposition, spin coating, photolithography, laser direct writing, screen printing, inkjet printing, etching and etc will be covered. Student will also learn to characterize the fabricated thin films and devices.
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EE403: 半导体信息显示技术(秋季)
EE403: Semiconductor Information Display Technology (Fall Semester)
To introduce advanced display technologies. The main objective is to gain knowledge of four main modules of display:
Part 1: Display fundamental including display development history, human visual perception, display optics, photometry and colorimetry;
Part 2: Display frontplane technologies including liquid-crystal display (LCD), organic light-emitting display (OLED) and quantum-dot display;
Part 3: Display backplane technologies including amorphous silicon, low temperature poly-crystalline silicon, metal oxide and organic thin-film transistors and active-matrix driving technologies;
Part 4: Emerging display technologies including micro-LED, laser, flexible and transparent display.
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电子邮箱:chensm@sustech.edu.cn