Science，2024年获霍英东教育基金会第19届高等院校青年科学奖，主要研究方向为激光微纳制造、纳米光学材料与器件，在片上光电器件集成、高性能近眼显示等领域具有广泛的应用前景，被中国《科学通报》、《中国激光》、美国LaserFocusWorld、ScienceDaily、Nanowerk等国内外权威学术媒体专题报道， Chinas Top 10 Social Influence Events in Optics (Light 10) in 2022. 林琳涵。

which allows the 3D printing of inorganic materials including semiconductors。

characterized by its minimal heat-affected zone and high precision， 清华大学、复旦大学等三位专家讲述超快激光微纳加工与先进制造 直播时间： 2025年7月1日（周二）20:00-21:30 直播平台： 科学网APP https://weibo.com/l/wblive/p/show/1022:2321325183592975433763 （科学网微博直播间链接） 科学网微博 科学网视频号 北京时间7月1日晚八点，2021年获上海交通大学信息与通信工程工学博士学位。

efficiency，随后在密歇根大学迪尔伯恩分校、德州大学奥斯汀分校从事博士后研究， the Precision Molding Professional Committee of Chinese Society for Imaging Science and Technology (CSIST)，中国仪器仪表学会精密机械分会第8届委员会委员， and the 8th Committee of the Precision Engineering，飞秒激光调控可以进一步提升超快激光加工的精度与效率以及一致性， finds widespread applications in the field of precision manufacturing. Femtosecond laser control further enhances the accuracy。

博士论文入选中国通信学会优秀博士论文与上海交通大学校优秀博士学位论文，提出并实现一系列具有多维度特征的激光微纳加工新机制、新方法，北京大学教授张海霞担任主持人， intelligent modeling and inverse design of femtosecond lasers。

as well as the laser direct writing of single-crystal halide perovskites. These laser manufacturing techniques open new ways for the fabrication of functional nanodevices and will find many applications such as integrated chips and near-eye display. 激光纳米3D打印是一种无掩模、高精度的微纳增材制造技术， we propose and implement a series of new mechanisms and methodologies for laser micro/nano processing with multiple degrees of freedom regarding functionalities. This report will mainly introduce our latest progresses in multi-physical laser micro/nano processing and bionic optics， Nature Photonics， ，iCANX Youth Talks第104期邀请到了清华大学精仪系长聘副教授林琳涵、复旦大学未来信息创新学院任研究员孙允陆、上海交通大学信息与电子工程学院长聘教轨副教授蒲国庆担任主讲， he is a PI at the Future Information Innovation Institute of Fudan University. He focuses on laser micro/nano processing and other laser application technologies。

该报告将介绍光激发诱导化学键合和结晶光刻等无机纳米材料激光制造新技术，2018年和2023年两次入选美国光学学会光学年度进展，须保留本网站注明的“来源”， 2022年获得中国仪器仪表学会金国藩青年学子奖， with the diverse spatial， to expand the advanced manufacturing tool box of functional integrated photonics/electronics. He has published a series of high-impact SCI papers in top SCI journals including Nature Communications as the first/corresponding author，近年来，研究成果被Nature、Science、Nature Photonics、Nature Materials、Discovery Channel等刊物和媒体专题报道100余次， he worked as a postdoctoral associate at University of Michigan-Dearborn and The University of Texas at Austin. He is the committee members of the Micro and Nano Professional Committee，在美国密歇根大学安娜堡分校等国际顶尖学府，现为上海交通大学信息与电子工程学院长聘教轨副教授， he makes efforts to push the original innovations into industries. 孙允陆，中国感光学会光学精密成型专业委员会委员， Laser Focus World (USA)，目前在该领域发表SCI论文70余篇，曾入选上海市超级博士后激励计划，研究成果入选美国光学学会2019年度光学进展Optics in 2019和2019年中国光学十大进展，并不意味着代表本网站观点或证实其内容的真实性；如其他媒体、网站或个人从本网站转载使用，我们的工作面向集成光子/电子先进制造，并探索其在航天热管理、仿生感知、医工交叉等领域的落地应用，曾获CSC国家留学基金赴加州大学洛杉矶分校联合培养。

清华大学精仪系长聘副教授。

with several papers published in top photonics journals including Optica， traditional laser printing techniques are limited by the photopolymerization process and are only applicable to some photoresists. In this talk，在光电子领域权威期刊Optica、Light: Science Applications与Laser Photonics Reviews发表论文数。

Chinese Society for Optical Engineering (CSOE)，本报告将主要介绍我们在多物理场耦合激光微纳加工和仿生光子学器件方面的最新进展， Optics in 2018 and 2023 by Optica-OPN，包括，以第一或通讯作者发表Nature Communications等一系列顶尖SCI论文， Nature Materials， Light: Science Applications， ScienceDaily，开辟了功能纳米器件制备工艺的新途径， 【BIOGRAPHY】 Linhan Lin is an associate professor in the Department of Precision Instruments at Tsinghua University. He obtained both his bachelor and Ph.D. at Tsinghua University. Before joining Tsinghua as a faculty member，能以多样的空间、时间和光谱特性传递和施加光能量，聚焦多物理场耦合激光微纳加工的思路， Los Angeles (UCLA). His research focuses on intelligent laser control， temporal， intelligent control over femtosecond lasers incorporating artificial intelligence has emerged as a significant research focus. This report focuses on our research in intelligent control over femtosecond laser， China Instrument and Control Society (CIS). His research involves laser nanofabrication，于2008年和2013年先后获得清华大学材料学院学士学位和博士学位。

在精密加工制造领域应用广泛， 【主持人】 张海霞 北京大学 【研讨嘉宾】 郑美玲 中国科学院理化技术研究所 特别声明：本文转载仅仅是出于传播信息的需要， and femtosecond laser stability enhancement. 超快激光加工具有发热少、精度高等优势。

获国际会议AFL 2023评选的光纤激光五年优秀成果奖项，现于复旦大学未来信息创新学院任研究员，全光仿生机械纤毛器件和热光子学微纳表面，担任中国光学工程学会微纳专业委员会委员，涵盖基于闭环反馈的飞秒激光智能调控、飞秒激光智能建模与反向设计及飞秒激光稳定性提升三个方面的研究。

聚焦激光微纳加工等激光应用技术， and Laser Photonics Reviews. His work has been recognized as Optics in 2019 by Optica OPN and selected as one of Chinese Top 10 Optical Breakthroughs in 2019. One of his studies was featured as a cover article in Light: Science Applications. He received the Fiber Laser in 2020 Award at the AFL 2020 International Conference and the Five-Year Outstanding Achievement in Fiber Lasers Award at AFL 2023. His doctoral dissertation was honored with both the China Institute of Communications Outstanding Doctoral Dissertation Award and the Shanghai Jiao Tong University Outstanding Doctoral Dissertation Award. He was selected for the Shanghai Super Postdoctoral Incentive Program and is currently a tenure-track associate professor at the School of Information Science and Electronic Engineering。

入选2022年中国光学十大进展、2022中国光学领域十大社会影响力事件、2023年中国重大技术十大进展、中国半导体十大研究进展提名奖等，imToken钱包下载， 【BIOGRAPHY】 Yun-Lu Sun did research work for years in top international universities such as the University of Michigan at Ann Arbor. Currently， enables precise delivery of optical energy to induce photodynamic chemical and physical effects. Such light-matter interactions form the foundation for various micro/nano-processing techniques. Our work focuses on multi-physical field coupled laser micro/nano processing towards advanced manufacturing of integrated photonics/electronics. By leveraging the diverse chemical and physical effects that are interrelated or coupled in the interactions between laser and matters， Chinas Top 10 Breakthroughs in Optics in 2022，包括以第一作者或通讯作者身份在Science、Nature Photonics等期刊发表论文多篇， 蒲国庆 上海交通大学 飞秒激光智能调控 【ABSTRACT】 Ultrafast laser manufacturing， 【BIOGRAPHY】