◆ 研究领域和兴趣                                                         

Ø  飞秒激光极端制造、精密制造、智能制造

智能化制造极端尺度或极高功能的器件和功能系统，集中表现在微细制造、超精密制造、巨系统制造等方面。

Ø  超快激光与物质作用过程与机理

理解超快激光脉冲与物质相互作用的机理，通过调控激光参数以及利用光场调控等多种手段设计制备所需微纳功能结构。发展激光复合微纳制造、激光辅助制造、激光诱导化学过程等新技术。

Ø  激光仿生调控材料表面润湿性及智能流体操控

仿生超疏水表面、超疏油表面、水下超疏气表面、液体灌注超滑表面等极端润湿性微纳结构的飞秒激光设计；以及在防水、防雾、抗冰冻、减阻、固/液/气分离、微流控、细胞工程、生物医疗等领域的工程应用；借助浸润性设计发展新型的气流控、液滴微流控技术。

2011年和2016年分别获得西安交通大学电子科学与技术专业学士学位和博士学位。2016-2021年工作于西安交通大学电子科学与工程学院，历任讲师、副教授（博导）。2018-2019年作为访问学者在美国罗切斯特大学光学中心学习工作（光学专业排名全美第一）。2021年11月至今工作于中国科学技术大学精密机械与精密仪器系。主要研究方向为飞秒激光精密加工、仿生微纳制造、极端制造、界面浸润性调控。基于飞秒激光在工程材料表面诱导的仿生微纳米结构，围绕材料表面复杂浸润性调控的原理与方法开展了系统深入的激光仿生微纳制造研究。在该领域取得了多项创新性研究成果。现已在国际知名SCI期刊发表学术论文110余篇，其中以第一作者在Chem. Soc. Rev., Nano Lett., Int. J. Extrem. Manuf., Adv. Funct. Mater., Adv. Sci., Appl. Phys. Lett.等上发表论文55篇，通讯作者论文16篇。所发表论文目前总被引7600余次（Google学术），其中24篇论文（22篇一作，2篇通讯）引用>100次，H因子为43。博士毕业论文《飞秒激光仿生调控材料表面润湿性》荣获“2018中国电子学会优秀博士学位论文奖”；飞秒激光制备透明水下抗油纳米界面的研究成果入选“2015中国光学重要成果”（现更名为“中国光学十大进展”）；飞秒激光直写水下气流控的研究成果入选“2023年度中国机械工程学会优秀论文”和期刊《International Journal of Extreme Manufacturing》的2022年最佳论文。部分研究成果被17次选为杂志封面文章，累计9篇文章（8篇一作，1篇通讯）入选ESI高被引论文。研究成果多次被美国科学促进会（AAAS）网站EurekAlert、美国物理学家组织网PhysOrg、光学和光子学网站Photonics Media和AZO Optics、国际著名工程学网站Advances in Engineering（AIE）等国际权威媒体专题新闻报道。受邀在CIOP、Light Conference、LTO、中国激光技术与产业发展大会等国际国内知名光学或激光学术会议上做邀请报告。荣获国际先进材料协会（IAAM）杰出科学家奖章（2023 IAAM Scientist Medal），受邀担任中国机械工程学会极端制造分会委员，国际期刊《International Journal of Extreme Manufacturing》（极端制造，IF: 21.3）青年编委，《中国激光》期刊青年编委，中国激光杂志社青年编委，《Biofunctional Materials》青年编委，连续入选斯坦福大学发布的全球前2%顶尖科学家年度榜单（World’s Top 2% Scientists 2020-2025）。

发表论文                                                      

近五年第一/通讯作者代表性论文（2020年至今）:

         [1]     雍佳乐*、吴东，飞秒激光仿生调控材料表面浸润性:当前进展与挑战（特邀）。《中国激光》，2024, 51, 0102002.（入选《中国激光》杂志创刊五十周年纪念专刊）

         [2]     J. Yong, Q. Yang, X. Hou, F. Chen*, Nature-Inspired Superwettability Achieved by Femtosecond Lasers. Ultrafast Science, 2022, 2022, 9895418. (Front Cover, 被引103次)

         [3]     J. Yong, X. Li, Y. Hu, Y. Wang, Y. Peng, Z. Chen, Y. Zhang, S. Zhu, C. Wang*, D. Wu*, Portable Triboelectric Electrostatic Tweezer for External Manipulation of Droplets within a Closed Femtosecond Laser-Treated Superhydrophobic System. Nano Lett., 2024, 24, 7116-7124. (IF: 9.1)

         [4]     X. Mei, Y. Peng, J. Yong*, Z. Chen, C. Chen, M. Wang, K. Zhang, S. Fan, S. Zhu, C. Wang, Y. Yao*, D. Wu*, 3D Self-Driven Underwater Aerofluidic Systems Woven with Femtosecond Laser-Structured Superhydrophobic Wires. Nano Lett., 2025, 25, 4790-4799. (IF: 9.1)

         [5]     Y. Yao, J. Zhou, S. Zhu*, Y. Peng, J. Yong*, D. Wu*, Thermo-Induced Biomimetic Switchable Slippery Interfaces with Strong Dual-Phase Adhesion via Femtosecond Laser Fabrication. Nano Lett., 2025, 25, 4252-4259. (IF: 9.1)

         [6]     Z. Chen, X. Li, C. Wang*, C. Chen, S. Zhu, Y. Hu, J. Yong*, D. Wu, A Digital Microfluidic Droplet Robotic System Enabled by Programmed Electrostatic Tweezer Arrays and Femtosecond Laser-Engineered Insulating Superhydrophobic Platforms. Nano Lett., 2025, 25, 16829-16838. (IF: 9.1)

         [7]     J. Yong, X. Mei, Y. Cheng, Z. Chen, S. Zhu*, C. Wang*, Y. Hu, D. Wu*, Emerging Advances in Femtosecond Laser-Designed Underwater “Aerofluidic” Systems: Concept, Design Principle, and Potential Applications. Adv. Funct. Mater., 2025, 35, e07163. (IF: 19)

         [8]     J. Yong, Q. Yang, J. Huo, X. Hou, F. Chen*, Underwater Gas Self-Transportation along Femtosecond Laser-Written Open Superhydrophobic Surface Microchannels (<100 µm) for Bubble/Gas Manipulation. Int. J. Extrem. Manuf., 2022, 4, 015002. (ESI高被引论文, 入选“2023年度中国机械工程学会优秀论文”) (IF: 21.3, 被引83次)

         [9]     J. Yong*^,#, X. Li^#, Y. Hu, Y. Peng, Z. Cheng, T. Xu, C. Wang*, D. Wu, Triboelectric “Electrostatic Tweezers” for Manipulating Droplets on Lubricated Slippery Surfaces Prepared by Femtosecond Laser Processing. Int. J. Extrem. Manuf., 2024, 6, 035002. (IF: 21.3)

      [10]     J. Yong, Y. Peng, X. Wang, J. Li, Y. Hu, J. Chu, D. Wu*, Self-Driving Underwater “Aerofluidics”. Adv. Sci., 2023, 10, 2301175. (IF: 14.1)

      [11]     X. Li, C. Wang*, Z. Chen, C. Chen, S. Zhu, D. Wu, J. Yong*, Synergistic Binding Ability of Electrostatic Tweezers and Femtosecond Laser-Structured Slippery Surfaces Enabling Unusual Droplet Manipulation Applications. Lab Chip, 2025, 25, 644-656. (IF: 5.4)

      [12]     Z. Cheng, C. Wang*, X. Li, T. Xu, Z. Chen, Z. Cui, K. Cheng, S. Zhu, D. Wu, J. Yong*, Designable and Unidirectional Motion of Leidenfrost Droplets on Heated Asymmetric Microgrooves Written by Femtosecond Laser. Appl. Phys. Lett., 2024, 124, 061601. (IF: 3.6)

      [13]     Y. Yao, Q. Meng, Y. Peng*, Z. Cheng, X. Li, T. Xu, J. Yong*, Highly Efficient Removal of Bubbles from Water Pipes by Femtosecond Laser-Designed Superhydrophobic Porous Microstructures. Appl. Phys. Lett., 2023, 123, 211301. (IF: 3.6)

      [14]     X. Bai, Q. Yang, Y. Fang, J. Zhang, J. Yong*, X. Hou, F. Chen*, Superhydrophobicity-Memory Surfaces Prepared by a Femtosecond Laser. Chem. Eng. J., 2020, 383, 123143. (ESI高被引论文) (IF: 13.2, 被引130次)

      [15]     X. Bai, Q. Yang, Y. Fang, J. Yong*, Y. Bai, J. Zhang, X. Hou, F. Chen*, Anisotropic, Adhesion-Switchable, and Thermal-Responsive Superhydrophobicity on the Femtosecond Laser-Structured Shape-Memory Polymer for Droplet Manipulation. Chem. Eng. J., 2020, 400, 125930. (IF: 13.2, 被引112次)

      [16]     J. Yong, X. Bai, Q. Yang*, X. Hou, F. Chen*, Filtration and Removal of Liquid Polymers from Water (Polymer/Water Separation) by Use of the Underwater Superpolymphobic Mesh Produced with a Femtosecond Laser. J. Colloid Interf. Sci., 2021, 582, 1203-1212.

      [17]     Y. Cheng, Q. Yang*, Y. Lu, J. Yong*, Y. Fang, X. Hou, F. Chen*, Femtosecond Bessel Laser Preparing a Nontoxic Slippery Liquid-Infused Porous Surface (SLIPS) for Improving the Hemocompatibility of a NiTi Alloy. Biomater. Sci., 2020, 8, 6505-6514. (Front Cover) (IF: 5.7)

      [18]     J. Yong, J. Zhuang, X. Bai, J. Huo, Q. Yang*, X. Hou, F. Chen*, Water/Gas Separation Based on the Selective Bubble-Passage Effect of Underwater Superaerophobic and Superaerophilic Meshes Processed by a Femtosecond Laser. Nanoscale, 2021, 13, 10414-10424. (IF: 5.1)

      [19]     X. Li, C. Wang*, Y. Hu, Z. Cheng, T. Xu, Z. Chen, J. Yong*, D. Wu, Multifunctional Electrostatic Droplet Manipulation on the Femtosecond Laser-Prepared Slippery Surfaces. ACS Appl. Mater. Interfaces, 2024, 16, 18154-18163. (IF: 9.5)

      [20]     J. Yong, C. Zhang, X. Bai, J. Zhang, Q. Yang*, X. Hou, F. Chen*, Designing “Supermetalphobic” Surfaces that Greatly Repel Liquid Metal by Femtosecond Laser Processing: Does the Surface Chemistry or Microstructure Play a Crucial Role? Adv. Mater. Interfaces, 2020, 7, 1901931.

      [21]     徐天宇、雍佳乐*、李新蕾、陈圳瑞、程子龙、吴东*，飞秒激光制备绝缘性超疏水表面上静电镊操控液滴研究。《中国激光》，2024, 51, 2402405.

其它第一/通讯作者论文:

      [22]     J. Yong, F. Chen, Q. Yang*, J. Huo, X. Hou*, Superoleophobic Surface. Chem. Soc. Rev., 2017, 46, 4168-4213. (Front Cover，ESI高被引论文) (IF: 39, 被引807次)

      [23]     J. Yong, Q. Yang, F. Chen*, D. Zhang, U. Farooq, G. Du, X. Hou, A Simple Way to Achieve Superhydrophobicity, Controllable Water Adhesion, Anisotropic Sliding, and Anisotropic Wetting Based on Femtosecond-Laser-Induced Line-Patterned Surfaces. J. Mater. Chem. A, 2014, 2, 5499-5507. (被引212次)

      [24]     J. Yong, F. Chen*, Q. Yang, D. Zhang, U. Farooq, G. Du, X. Hou, Bioinspired Underwater Superoleophobic Surface with Ultralow Oil-Adhesion Achieved by Femtosecond Laser Microfabrication. J. Mater. Chem. A, 2014, 2, 8790-8795. (被引175次)

      [25]     J. Yong, F. Chen*, Q. Yang*, G. Du, C. Shan, H. Bian, U. Farooq, X. Hou, Bioinspired Transparent Underwater Superoleophobic and Anti-Oil Surfaces. J. Mater. Chem. A, 2015, 3, 9379-9384. (Front Cover, 入选“2015中国光学重要成果”，Highlighted by “Chemistry World”, 2015 Hot Paper of JMCA) (被引132次)

      [26]     J. Yong, F. Chen*, Q. Yang*, U. Farooq, X. Hou, Photoinduced Switchable Underwater Superoleophobicity-Superoleophilicity on Laser Modified Titanium Surfaces. J. Mater. Chem. A, 2015, 3, 10703-10709. (被引153次)

      [27]     J. Yong, F. Chen*, M. Li, Q. Yang*, Y. Fang, J. Huo, X. Hou, Remarkably Simple Achievement of Superhydrophobicity, Superhydrophilicity, Underwater Superoleophobicity, Underwater Superoleophilicity, Underwater Superaerophobicity, and Underwater Superaerophilicity on Femtosecond Laser Ablated PDMS Surfaces. J. Mater. Chem. A, 2017, 5, 25249-25257. (被引176次)

      [28]     J. Yong, F. Chen*, Q. Yang*, G. Du, H. Bian, D. Zhang, J. Si, F. Yun, X. Hou, Rapid Fabrication of Large-Area Concave Microlens Arrays on PDMS by a Femtosecond Laser. ACS Appl. Mater. Interfaces, 2013, 5, 9382-9385. (被引159次)

      [29]     J. Yong, F. Chen*, Y. Fang, J. Huo, Q. Yang*, J. Zhang, H. Bian, X. Hou, Bioinspired Design of Underwater Superaerophobic and Superaerophilic Surfaces by Femtosecond Laser Ablation for Anti- or Capturing Bubbles. ACS Appl. Mater. Interfaces, 2017, 9, 39863-39871. (被引210次)

      [30]     J. Yong, S. C. Singh, Z. Zhan, F. Chen*, C. Guo*, Substrate-Independent, Fast, and Reversible Switching between Underwater Superaerophobicity and Aerophilicity on the Femtosecond Laser-Induced Superhydrophobic Surfaces for Selectively Repelling or Capturing Bubbles in Water. ACS Appl. Mater. Interfaces, 2019, 11, 8667-8675. (被引72次)

      [31]     J. Yong, F. Chen*, J. Huo, Y. Fang, Q. Yang*, J. Zhang, X. Hou, Femtosecond Laser Induced Underwater Superaerophilic and Superaerophobic PDMS sheet with Through-Microholes for Air Bubbles Selectively Passing Through and Further Collecting Underwater Gas. Nanoscale, 2018, 10, 3688-3696. (ESI高被引论文) (被引101次)

      [32]     J. Yong, F. Chen*, Q. Yang*, Y. Fang, J. Huo, X. Hou, Femtosecond Laser Induced Hierarchical ZnO Superhydrophobic Surfaces with Switchable Wettability. Chem. Commun., 2015, 51, 9813-9816. (被引101次)

      [33]     J. Yong, Q. Yang*, F. Chen*, H. Bian, G. Q. Du, U. Farooq, X. Hou, Reversible Underwater Lossless Oil Droplet Transportation, Adv. Mater. Interfaces, 2015, 2, 1400388. (Front Cover, ESI高被引论文) (被引78次)

      [34]     J. Yong, F. Chen*, Q. Yang*, H. Bian, G. Du, C. Shan, J. Huo, Y. Fang, X. Hou, Oil-Water Separation: A Gift From the Desert. Adv. Mater. Interfaces, 2016, 3, 1500650. (Front Cover, ESI高被引论文) (被引143次)

      [35]     J. Yong, F. Chen*, Q. Yang*, Y. Fang, J. Huo, J. Zhang, X. Hou, Nepenthes Inspired Design of Self-Repairing Omniphobic Slippery Liquid Infused Porous Surface (SLIPS) by Femtosecond Laser Direct Writing. Adv. Mater. Interfaces, 2017, 4, 1700552. (Front Cover) (被引182次)

      [36]     J. Yong, J. Huo, Q. Yang, F. Chen*, Y. Fang, X. Wu, X. Lu*, J. Zhang, X. Hou, Femtosecond Laser Direct Writing of Porous Network Microstructures for Fabricating Super-Slippery Surfaces with Excellent Liquid Repellence and Anti-Cell Proliferation. Adv. Mater. Interfaces, 2018, 5, 1701479. (Front Cover) (被引151次)

      [37]     J. Yong, F. Chen*, Q. Yang, Z. Jiang, X. Hou, A Review of Femtosecond-Laser-Induced Underwater Superoleophobic Surfaces. Adv. Mater. Interfaces, 2018, 5, 1701370. (Back Cover) (被引153次)

      [38]     J. Yong, Q. Yang, F. Chen*, D. Zhang, G. Du, J. Si, F. Yun, X. Hou, Superhydrophobic PDMS Surfaces with Three-Dimensional (3D) Pattern-Dependent Controllable Adhesion. Appl. Surf. Sci., 2014, 288, 579-583. (ESI高被引论文) (被引100次)

      [39]     J. Yong, Y. Fang, F. Chen*, J. Huo, Q. Yang*, H. Bian, G. Du, X. Hou, Femtosecond Laser Ablated Durable Superhydrophobic PTFE Films with Micro-Through-Holes for Oil/Water Separation: Separating Oil from Water and Corrosive Solutions. Appl. Surf. Sci., 2016, 389, 1148-1155. (被引192次)

      [40]     J. Yong, S. C. Singh, Z. Zhan, E. Mohamed, F. Chen*, C. Guo*, Femtosecond Laser-Produced Underwater “Superpolymphobic” Nanorippled Surfaces: Repelling Liquid Polymers in Water for Application of Controlling Polymer Shape and Adhesion. ACS Appl. Nano Mater., 2019, 2, 7362-7371.

      [41]     J. Yong, Z. Zhan, S. C. Singh, F. Chen*, C. Guo*, Microfludic Channels Fabrication Based on Underwater Superpolymphobic Microgrooves Produced by Femtosecond Laser Direct Writing. ACS Appl. Polym. Mater., 2019, 1, 2819-2825. (Supplementary Cover)

      [42]     J. Yong, F. Chen*, W. Li, J. Huo, Y. Fang, Q. Yang*, H. Bian, X. Hou, Underwater Superaerophobic and Superaerophilic Nanoneedles-Structured Meshes for Water/Bubbles Separation: Removing or Collecting Gas Bubbles in Water. Global Challenges, 2018, 2, 1700133. (IF: 6.4, Front Cover)

      [43]     J. Yong, F. Chen*, Q. Yang, U. Farooq, G. Du, H. Bian, X. Hou, Controllable Underwater Anisotropic Oil-Wetting. Appl. Phys. Lett., 2014, 105, 071608.

      [44]     J. Yong, F. Chen*, Q. Yang, D. Zhang, G. Du, J. Si, F. Yun, X. Hou, Femtosecond Laser Weaving Superhydrophobic Patterned PDMS Surfaces with Tunable Adhesion. J. Phys. Chem. C, 2013, 117, 24907-24912. (被引179次)

      [45]     J. Yong, F. Chen*, Q. Yang*, D. Zhang, H. Bian, G. Du, J. Si, X. Meng, X. Xou, Controllable Adhesive Superhydrophobic Surfaces Based on PDMS Microwell Arrays. Langmuir, 2013, 29, 3274-3279. (被引144次)

      [46]     J. Yong, S. C. Singh, Z. Zhan, F. Chen*, C. Guo*, How to Obtain Six Different Superwettabilities on a Same Microstructured Pattern: Relationship between Various Superwettabilities in Different Solid/Liquid/Gas Systems. Langmuir, 2019, 35, 921-927. (ESI高被引论文)

      [47]     J. Yong, Z. Zhan, S. C. Singh, F. Chen*, C. Guo*, Femtosecond Laser-Structured Underwater “Superpolymphobic” Surfaces. Langmuir, 2019, 35, 9318-9322. (Supplementary Cover)

      [48]     J. Yong, J. Huo, F. Chen*, Q. Yang, X. Hou, Oil/Water Separation based on Natural Materials with Super-Wettability: Recent Advances. Phys. Chem. Chem. Phys., 2018, 20, 25140-25163. (被引143次)

      [49]     J. Yong, F. Chen*, Q. Yang*, X. Hou, Femtosecond Laser Controlled Wettability of Solid Surfaces. Soft Matter, 2015, 11, 8897-8906. (被引160次)

      [50]     J. Yong, S. C. Singh, Z. Zhan, J. Huo, F. Chen*, C. Guo*, Reducing Adhesion for Dispensing Tiny Water/Oil Droplet and Gas Bubble by Femtosecond Laser-Treated Needle Nozzles: Superhydrophobicity, Superoleophobicity, and Superaerophobicity. ChemNanoMat, 2019, 5, 241-249. (ESI高被引论文)

      [51]     J. Yong, Q. Yang, X. Hou, F. Chen*, Emerging Separation Applications of Surface Superwettability. Nanomaterials, 2022, 12, 688.

      [52]     J. Yong, Q. Yang, F. Chen*, D. Zhang, G. Du, J. Si, F. Yun, X. Hou, A Bioinspired Planar Superhydrophobic Microboat. J. Micromech. Microeng., 2014, 24, 035006.

      [53]     J. Yong, F. Chen*, J. Huo, Y. Fang, Q. Yang*, H. Bian, W. Li, Y. Wei, Y. Dai, X. Hou, Green, Biodegradable, Underwater Superoleophobic Wood Sheet for Efficient Oil/Water Separation. ACS Omega, 2018, 3, 1395-1402.

      [54]     J. Yong, Q. Yang, F. Chen*, D. Zhang, H. Bian, Y. Ou, J. Si, G. Du, X. Hou, Stable Superhydrophobic Surface with Hierarchical Mesh-Porous Structure Fabricated by a Femtosecond Laser. Appl. Phys. A, 2013, 111, 243-249. (被引88次)

      [55]     J. Yong, F. Chen*, Q. Yang*, U. Farooq, H. Bian, G. Du, X. Hou, Femtosecond Laser Controlling Underwater Oil-Adhesion of Glass Surface. Appl. Phys. A, 2015, 119, 837-844.

      [56]     J. Yong, Q. Yang, C. Guo*, F. Chen*, X. Hou, A Review of Femtosecond Laser-Structured Superhydrophobic or Underwater Superoleophobic Porous Surfaces/Materials for Efficient Oil/Water Separation. RSC Adv., 2019, 9, 12470-12495. (被引115次)

      [57]     J. Yong, Q. Yang, F. Chen*, D. Zhang, G. Du, H. Bian, J. Si, X. Hou, Bioinspired Superhydrophobic Surfaces with Directional Adhesion. RSC Adv., 2014, 4, 8138-8143.

      [58]     J. Yong, Q. Yang, F. Chen*, G. Du, C. Shan, U. Farooq, J. Wang, X. Hou, Using An “Underwater Superoleophobic Pattern” to Make Liquid Lens Array. RSC Adv., 2015, 5, 40907-40911.

      [59]     J. Yong, Q. Yang, X. Hou, F. Chen*, Endowing Metal Surfaces with Underwater Superoleophobicity by Femtosecond Laser Processing for Oil-Water Separation Application. Front. Phys., 2020, 8, 305.

      [60]     J. Huo, J. Yong*, F. Chen*, Q. Yang, Y. Fang, X. Hou, Trapped Air-Induced Reversible Transition between Underwater Superaerophilicity and Superaerophobicity on the Femtosecond Laser-Ablated Superhydrophobic PTFE Surfaces. Adv. Mater. Interfaces, 2019, 6, 1900262. (Front Cover)

      [61]     J. Huo, Q. Yang, J. Yong*, P. Fan, Y. Lu, X. Hou, F. Chen*, Underwater Superaerophobicity/ Superaerophilicity and Unidirectional Bubble Passage Based on the Femtosecond Laser-Structured Stainless Steel Mesh. Adv. Mater. Interfaces, 2020, 7, 1902128. (Inside Front Cover)

      [62]     Y. Cheng, Q. Yang, Y. Fang, J. Yong*, F. Chen*, X. Hou, Underwater Anisotropic 3D Superoleophobic Tracks Applied for the Directional Movement of Oil Droplets and the Microdroplets Reaction. Adv. Mater. Interfaces, 2019, 6, 1900067. (Back Cover)

      [63]     J. Huo, F. Chen*, Q. Yang, J. Yong*, Y. Fang, J. Zhang, X. Hou, Underwater Transparent Miniature “Mechanical Hand” Based on Femtosecond Laser-Induced Controllable Oil-Adhesive Patterned Glass for Oil Droplet Manipulation. Langmuir, 2017, 33, 3659-3665.

      [64]     J. Zhang, F. Chen*, Q. Yang, J. Yong*, J. Huo, Y. Fang, X. Hou, A Widely Applicable Method to Fabricate Underwater Superoleophobic Surfaces with Low Oil-Adhesion on Different Metals by a Femtosecond Laser. Appl. Phys. A, 2017, 123, 594.

◆ 申请专利                                                      

         [1]     雍佳乐、梅新伶、陈圳瑞、吴东，一种三维自驱动水下气流控系统、制备方法及应用，2025-03-17，ZL202510311346.1.

         [2]     陈烽、杨青、雍佳乐、边浩、杜广庆，可实现油水分离的装置及方法, 2017-12-15, ZL201510979755.5.

         [3]     陈烽、张径舟、杨青、张承军、雍佳乐、山超，基于超疏液体金属表面的柔性电路印刷方法，2020-04-14，ZL201911266377.0.

         [4]     雍佳乐、陈圳瑞、吴东，一种借助风镊操纵液滴的方法，2024-09-30，CN119335207A.（实审中）

         [5]     雍佳乐、陈圳瑞、李新蕾、吴东，基于静电极阵列的数字微流控系统及方法，2025-03-31，CN120268468A.（实审中）

◆ 学术会议邀请报告                                                      

[1]             2019年5月8-10日,“中国光学十大进展”西安交通大学论坛，西安， 邀请报告：飞秒激光仿生制备超浸润表面。

[2]             2019年7月16-18日, Light Conference 2019, Changchun, Invited Speaker: “Bio-Inspired Control of Surface Wettability by a Femtosecond Laser”.

[3]             2019年9月19-21日, 海峡两岸暨港澳青年科学家微纳机电系统技术论坛，西安，邀请报告：飞秒激光仿生制备超浸润表面及应用。

[4]             2020年10月17-20日, 第二十四届全国激光学术会议暨第十五届全国激光技术与光电子学学术会议(LTO)，上海，邀请报告：特殊液体在飞秒激光构建微纳结构上的极端润湿性。

[5]             2021年4月20-21日, 2021高功率光纤激光技术及其高端产业应用论坛，成都，大会邀请报告：飞秒激光仿生制备极端润湿性表面微纳结构及应用。

[6]             2021年5月16日，光学前沿论坛“云影天光”系列报告，西安，邀请报告：飞秒激光仿生制备极端润湿性表面微纳结构及应用。

[7]             2022年5月13日，光电讲坛OE Forum 第十一期暨2022年光电青年专场，在线，邀请报告：飞秒激光仿生制备极端润湿性表面微纳结构及应用。

[8]             2022年7月27-29日，中国微米纳米技术学会第五届微流控技术应用创新论坛，广州，邀请报告：飞秒激光制备超浸润微纳结构及在液滴/气泡操控方面的应用。

[9]             2022年8月21-22日，高性能制造国际学术交流会暨中国科协青年科学家沙龙，大连，邀请报告：飞秒激光调控材料浸润性技术：机遇与挑战。

[10]             2023年1月04日，IJEM激光加工论坛，在线，论坛主持人。

[11]             2023年4月7-9日，第二届中国激光技术及产业发展大会，长沙，邀请报告：飞秒激光仿生调控材料浸润性：进展与挑战。

[12]             2023年5月19-22日，2023柔性电子技术与应用创新论坛，苏州，邀请报告：飞秒激光调控液态金属粘附性及柔性电路印刷应用。

[13]             2023年8月7-10日, The 14th International Conference on Information Optics and Photonics (CIOP 2023), Xi’an, Invited Speaker: “Unique Superwettability Achieved by Femtosecond Lasers”.

[14]             2023年10月19-22日，第六届光学青年科学家学术年会，长沙，邀请报告：飞秒激光仿生调控材料表面浸润性。

[15]             2023年11月9-12日, Advanced Materials World Congress (AMWC)—The 57th Assembly of Advanced Materials Congress (AMC), Orlando (USA), Invited Speaker: “Unique Superwettability Achieved by Femtosecond Lasers”.

[16]             2023年12月9-11日，中国微米纳米技术学会第六届微流控技术应用创新论坛，郑州，邀请报告：自驱动“水下气流控”系统的飞秒激光制备。

[17]             2024年5月26-30日，特殊环境数字化制造装备超精密加工与检测一体化技术国家级高级研修班，成都，讲座报告（一小时）：飞秒激光仿生调控材料表面浸润性。

[18]             2024年5月31日-6月2日，第三届中国激光技术及产业发展大会，郑州，邀请报告：飞秒激光直写非对称微结构上Leidenfrost液滴新奇运动特性研究。

[19]             2024年10月25-28日，第七届光学青年科学家学术年会，南京，邀请报告：飞秒激光直写非对称微结构对Leidenfrost液滴运动的调控作用。

[20]             2024年12月06-09日，中国微米纳米技术学会第七届微流控技术应用创新论坛，深圳，邀请报告：飞秒激光直写非对称宏微观结构对Leidenfrost液滴的高速驱动和控制。

[21]             2024年12月18日，中科大工程科学学院，讲座报告：仿生超浸润性漫谈。（科普讲座）

[22]             2025年01月07日，极端制造在线论坛—期刊作者分享会，在线，邀请报告：自驱动“水下气流控”系统的飞秒激光制备。

[23]             2025年04月23-25日，超精密加工学术研讨会，成都，邀请报告：飞秒激光直写非对称微结构对Leidenfrost液滴运动的调控作用。

[24]             2025年8月10-14日, The 16th International Conference on Information Optics and Photonics (CIOP 2025), Xi’an, Invited Speaker: “Regulation of Leidenfrost Droplet Motion by Femtosecond Laser Direct Writing of Asymmetric Microstructures”.