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叶贺庆,男,河南大学百人计划,以第一作者(通讯作者)身份在在 Nat. Commun., Adv. Funct. Mater., ACS Appl. Mater. Interfaces.等期刊发表高水平学术论文12篇,共计发表学术论文26篇。荣获教育部国家留学基金委员会 “2021年度国家优秀自费留学生”奖项;第十五届周口市自然科学优秀学术成果一等奖。
电子邮件:[email protected] |
教育背景
1、2014/09-2018/08:韩国岭南大学, 机械工程,工学学士
2、2018/09-2023/08:韩国岭南大学,化学工学,工学博士(硕博连读)
工作经历
1、2023/09-2024/09:韩国延世大学(QS76),博士后
2、2024/09-至今:一飞冲天-一飞冲天游戏
研究方向
柔性印刷电子材料与器件 半导体工程
(1)印刷电子材料中非硅基器件中针对柔性显示器背板电路的下一代设备的开发与研究。
(2)碳基气体/液体传感器的开发与研究。
(3)乳酸/生物传感器的开发与研究。
(4)柔性薄膜可溶液加工的Fe-ram储存性TFT的开发与研究。
(5)大面积高速印刷电极制作的逻辑电路。(CMOS,NAND,NOR)
代表性成果
1. Functionalized MXene Ink Enables Environmentally Stable Printed Electronics. Nature Communications 2024,15(1,3549)
2. Photo-curable Fluorinated High-k Polyimide Dielectrics by Polar Side Substitution Effect for Low-Voltage Operating Flexible Printed Electronics. Advanced Functionl Materlals 2024,202412418
3. Photopatternable High‐k Polysilsesquioxane Dielectrics for Organic Integrated Devices: Effects of UV Curing on Chemical and Electrical Properties(Adv.Funct.Mater.19/2023).Advanced Functionl Materlals(Back cover ) 2023,202370121.
4. The Hidden Potential of Polysilsesquioxane for High-k: Analysis of the Origin of its Dielectric Nature and Practical Low-Voltage-Operating Applications beyond the Unit Device. (Adv. Funct. Mater. 7/2022)Advanced Functionl Materlals(Front cover) 2022,2270042.
5. Printable Ultra-Flexible Fluorinated Organic–Inorganic Nanohybrid Sol–Gel Derived Gate Dielectrics for Highly Stable Organic Thin-Film Transistors and Other Practical Applications. Advanced Functionl Materlals 2022,2009539.
6. Newly Synthesized Nonvacuum Processed Highk Polymeric Dielectrics with Carboxyl Functionality for Highly Stable Operating Printed Transistor Applications. Advanced Functionl Materlals 2022,2007304.
7. Amorphous Fluorinated Acrylate Polymer Dielectrics for Flexible Transistors and Logic Gates with High OperationalStability. ACS Applied Materials & Interfaces 2023,15(27), 32610-32620.
8. Fluorinated polymeric insulating layer surface advancement by fluorine based cross-linking for high-performance organic electronic applications. Journal of Materials Chemistry C 2024,10.1039
9. Surface engineering of high- k polymeric dielectric layers with a fluorinated organic crosslinker for use in flexible-platform electronics.Nanoscale Advances 2024.10.1039
10. Parylene-based polymeric dielectric top-gate organic field-effect transistors exposed to a UV/ozone environment. Organic Electronics 2020,87,105942.
11. Highly stable flexible organic field-effect transistors with Parylene-C gate dielectrics on a flexible substrate. Organic Electronics 2019,75,105391.
12. Direct patterned zinc-tin-oxide for solution-processed thin-film transistors and complementary inverter through electrohydrodynamic jet printing. Nanomaterials 2019, 10 (7),1304.