个人主页 - 中国科学技术大学

苏文明，博士/研究员，印刷电子课题组组长，博导、江苏省印刷电子工程中心负责人，中科院青年创新促进会会员。2007年博士毕业于中科院长春光机所发光学及应用国家重点实验室，硕博连读期间赴新加坡SIMTech（15个月）参与科技部PMOLED平板显示国际合作项目。2008年2月加入中科院苏州纳米所，2018年初接任课题组长，2019年获张家港市创业领军人才；同年赴中国井岗山干部学院参加中科院高层次专家培训，科技部十四五重大专项/工信部2030材料重大专项等会评专家；江苏省产业教授、科技副总。中科院先导专项变革性纳米产业制造（战略A类）子课题负责人，江苏省产业研究院成果转化重大项目负责人。致力于印刷QLED发光显示、航空用透明电磁防护膜、印刷有机电致变色与伪装、柔性可穿戴电子等关键材料开发及应用器件的工程化；先后还承担国家重点研发计划任务，国家基金委联合重点项目，科技委项目，江苏省重点研发计划项目，中科院装备项目等数十项；还承担华为、BOE、TCL、福耀、海信、中钞、中国航空航天等龙头企业技术委托横向项目数十项。在Nature Communication, ACS Nano, PANS、CEJ、eScience, Small; Adv. Electron. Mater.；ACS Appl. Mater. Interfaces；ACS Photonics；Adv. Funct. Mater.，Adv. Sci.等期刊上发表论文百余篇，累计被引用超过4500次，h-index为37，共申请发明专利30余项。兼任Nanoscale 印刷电子纳米材料专题客座编辑，中国电子材料行业协会电磁防护分会第一届理事会副理事长。

有机合成、印刷OLED/QLED光电材料与器件、印刷有机电致变色显示/调光玻璃、透明电磁屏蔽/透明天线、柔性可穿戴电路与系统等。要求与上述方向相关学科背景：有机化学、物理化学、化工材料、微电子等。本印刷电子研究团队有专职人员12人，研究生18人，博士后多人，实验室超过2500平方米，印刷电子相关专业设备超过3000万元。科研条件国际一流，科研项目、产研合作资源充足；团队富有创新能力，敢于挑战本行业共性难题，多项科研成果达国际领先水平，在江苏省产业研究院资助下建设有印刷工程化平台-光显印科技（南通）有限公司，具备从概念样品到产品落地的实操/实习条件，重视培育科技创新“学以致用”型人材；研究生就业备受产业界欢迎，读博富有竞争力！

1) Linear cross-linkers enabling photothermally cured hole transport layer for high-performance quantum dots light-emitting diodes with ultralow efficiency roll-off - Chem. Eng. J. - 2022
2) Highly Conductive Omnidirectionally Stretchable 2D Transparent Copper Mesh Electrodes and Applications in Optoelectronic Devices - Adv. Mater. Tech. - 2023
3) Ultra‐Low Resistivity Copper Mesh as Embedded Current Collector Layer for Inkjet‐Printed Flexible Electrochromic Device Realizing Fast Response and Uniform Coloration - Adv. Mater. Tech. - 2022
4) High performance printed organic electrochromic devices based on an optimized UV curable solid-state electrolyte - Nanoscale - 2022
5) High‐Performance Inkjet‐Printed Blue QLED Enabled by Crosslinked and Intertwined Hole Transport Layer - Adv. Optical Mater. - 2022
6) A general strategy to achieve see-through devices through the micro-structuring of colored functional materials - Nature Communications - 2024
7) Nondestructive Direct Patterning of Both Hole Transport and Emissive Layers for Pixelated Quantum-Dot Light-Emitting Diodes - ACS Nano - 2024
8) Chimera metasurface for multiterrain invisibility - PNAS - 2024
9) A general strategy to achieve see-through devices through the micro-structuring of colored functional materials - Nature Communications - 2024
10) Nondestructive Direct Patterning of Both Hole Transport and Emissive Layers for Pixelated Quantum-Dot Light-Emitting Diodes - ACS Nano - 2024
11) Chimera metasurface for multiterrain invisibility - PNAS - 2024
12) High‐Performance Inkjet‐Printed Blue QLED Enabled by Crosslinked and Intertwined Hole Transport Layer - Adv. Optical Mater. - 2022
13) High performance printed organic electrochromic devices based on an optimized UV curable solid-state electrolyte - Nanoscale - 2022
14) Ultra‐Low Resistivity Copper Mesh as Embedded Current Collector Layer for Inkjet‐Printed Flexible Electrochromic Device Realizing Fast Response and Uniform Coloration - Adv. Mater. Tech. - 2022
15) Highly Conductive Omnidirectionally Stretchable 2D Transparent Copper Mesh Electrodes and Applications in Optoelectronic Devices - Adv. Mater. Tech. - 2023
16) Linear cross-linkers enabling photothermally cured hole transport layer for high-performance quantum dots light-emitting diodes with ultralow efficiency roll-off - Chem. Eng. J. - 2022