成果及论文 - 雍佳乐

当前位置：首页 > 成果及论文

成果及论文

2021年：

[83] J. L. 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.

[84] J. L. 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.

[85] J. L. Yong, Q. Yang, X. Hou, F. Chen*, Underwater Superpolymphobicity: Concept, Achievement, and Applications. Nano Select, 2021, 2, 1011-1022.

[86] J. L. Yong, Q. Yang, J. Huo, X. Hou, F. Chen*, Superwettability-based separation: From oil/water separation to polymer/water separation and bubble/water separation. Nano Select, 2021, 2, 1580-1588.

[87] J. L. Yong*, Editorial: Bioinspired Functional Surfaces with Superwettability: From Fabrication to Applications. Front Chem., 2021, 9, 658572. (Editorial)

[88] J. Huo, X. Bai, J. L. Yong, Y. Fang, Q. Yang*, X. Hou, F. Chen*, How to Adjust Bubble’s Adhesion on Solid in Aqueous Media: Femtosecond Laser-Ablated Patterned Shape-Memory Polymer Surfaces to Achieve Bubble Multi-Manipulation. Chem. Eng. J., 2021, 414, 128694.

[89] Y. Fang, J. L. Yong, Y. Cheng, Q. Yang, X. Hou, F. Chen*, Liquid Infused Slippery Stainless Steel Surface Prepared by Alcohol-Assisted Femtosecond Laser ablation. Adv. Mater. Interfaces, 2021, 8, 2001334.

[90] X. Bai, J. L. Yong, C. Shan, Y. Fang, X. Hou, F. Chen*, Remote, Selective, and in situ Manipulation of Liquid Droplets on a Femtosecond Laser-Structured Superhydrophobic Shape-Memory Polymer by Near-Infrared Light. Science China Chemistry, 2021, 64, 861-872.

[91] C. Zhang, Q. Yang,* J. L. Yong, C. Shan, J. Zhang, X. Hou, F. Chen*, Guiding Magnetic Liquid Metal for Flexible Circuit. Int. J. Extrem. Manuf., 2021, 3, 025102.

[92] Q. Yang, M. Li, H. Bian, J. L. Yong, F. Zhang, X. Hou, F. Chen*, Bioinspired Artificial Compound Eyes: Characteristic, Fabrication, and Application. Adv. Mater. Tech., 2021, 6, 2100091.

2020年：

[66] J. L. 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.

[67] J. L. Yong, Q. Yang, X. Hou, F. Chen*, Relationship and Interconversion between Superhydrophilicity, Superhydrophobicity, Underwater Superoleophilicity, Underwater Superoleophobicity, Underwater Superaerophilicity, and Underwater Superaerophobicity: A Mini-Review. Front. Chem., 2020, 8, 808.

[68] J. L. 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.

[69] J. L. Yong, H. Bian, Q. Yang, X. Hou, F. Chen*, Mini-Review on Bioinsipred Superwetting Microlens Array and Compound Eye. Front. Chem., 2020, 8, 883.

[70] H. Bian, J. L. Yong*, Q. Yang, X. Hou, F. Chen*, Simple and Low-Cost Oil/Water Separation Based on the Underwater Superoleophobicity of the Existing Materials in Our Life or Nature. Front. Chem., 2020, 8, 507.

[71] X. Bai, Q. Yang, Y. Fang, J. Zhang, J. L. Yong*, X. Hou, F. Chen*, Superhydrophobicity-Memory Surfaces Prepared by a Femtosecond Laser. Chem. Eng. J., 2020, 383, 123143.

[72] X. Bai, Q. Yang, Y. Fang, J. L. 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.

[73] Y. Cheng, Q. Yang*, Y. Lu, J. L. 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)

[74] J. Huo, Q. Yang, J. L. 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)

[75] C. Zhang, Q. Yang*, C. Shan, J. Zhang, J. L. Yong*, Y. Fang, X. Hou, F. Chen*, Tuning a surface-repellent to liquid metal by a femtosecond laser. RSC Adv., 2020, 10, 3301-3306.

[76] J. Zhang, K. Zhang, J. L. Yong, Q. Yang, Y. He, C. Zhang, X. Hou, F. Chen*, Femtosecond Laser Preparing Patternable Liquid-Metal-Repellent Surface for Flexible Electronics. J. Colloid Interf. Sci., 2020, 578, 146-154.

[77] J. Zhang, J. L. Yong, C. Zhang, K. Zhang, Y. He, Q. Yang*, X. Hou, F. Chen*, Liquid Metal-Based Reconfigurable and Repairable Electronics Designed by Femtosecond Laser. ACS Appl. Electron. Mater., 2020, 2, 2685-2691.

[78] Y. Fang, J. Liang, X. Bai, J. L. Yong, J. Huo, Q. Yang*, X. Hou, F. Chen*, Magnetically Controllable Isotropic/Anisotropic Slippery Surface for Flexible Droplet Manipulation. Langmuir, 2020, 36, 15403-15409.

[79] J. Liang, H. Bian*, Q. Yang, Y. Fang, C. Shan, X. Bai, Y. Cheng, J. L. Yong, X. Hou, F. Chen*, Femtosecond Laser-Patterned Slippery Surfaces on PET for Liquid Patterning and Blood Resistance. Opt. Laser Tech., 2020, 132, 106469.

[80] C. Shan, C. Zhang, J. Liang, Q. Yang*, H. Bian, J. L. Yong, X. Hou, F. Chen*, Femtosecond Laser Hybrid Fabrication of a 3D Microfluidic Chip for PCR Application. Optic. Express, 2020, 28, 25716-25722.

[81] C. Shan, C. Zhang, J. Liang, Q. Yang*, H. Bian, J. L. Yong, X. Hou, F. Chen*, 3D Integrated Coreless Microtransformer Processed by Femtosecond Laser Micro-nano Fabrication. J. Micromech. Microeng., 2020, 30, 105002.

[82] 方瑶，雍佳乐，霍静岚，杨青*，成扬，梁捷，陈烽*，飞秒激光制备仿生制备超滑表面及其应用。《激光与光电子学进展》，2020，57，111413。

2019年：

[51] J. L. 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.

[52] J. L. 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.

[53] J. L. 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.

[54] J. L. 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.

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

[56] J. L. 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)

[57] J. L. 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.

[58] M. Xi^#, J. L. Yong*^#, F. Chen*, Q. Yang, X. Hou, Femtosecond Laser-Induced Superhygrophobic Surface: Beyond Superhydrophobicity and Repelling Various Complex Liquids. RSC Adv., 2019, 9, 6650-6657.

[59] Y. Cheng, Q. Yang, Y. Fang, J. L. 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)

[60] J. Huo, J. L. 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] D. Chu, S. C. Singh, J. L. Yong. Z. Zhan, X. Sun, J. Duan, C. Guo*, Superamphiphobic Surfaces with Controllable Adhesion Fabricated by Femtosecond Laser Bessel Beam on PTFE. Adv. Mater. Interfaces, 2019, 6, 1900550.

[62] J. Zhang, J. L. Yong, Q. Yang, F. Chen*, X. Hou, Femtosecond Laser-Induced Underwater Superoleophobic Surfaces with Reversible pH-Responsive Wettability. Langmuir, 2019, 35, 3295-3301.

[63] M. Li, Q. Yang*, J. L. Yong, J. Liang, Y. Fang, H. Bian, X. Hou, F. Chen*, Underwater Superoleophobic and Anti-Oil Microlens Array Prepared by Combing Femtosecond Laser Wet Etching and Direct Writing Techniques. Opt. Express, 2019, 27, 35903-35913.

[64] M. Li, Q. Yang, F. Chen*, J. L. Yong, H. Bian, Y. Wei, Y. Fang, X. Hou, Integration of Great Water Repellence and Imaging Performance on a Superhydrophobic PDMS Microlens Array by Femtosecond Laser Microfabrication. Adv. Eng. Mater., 2019, 21, 1800994.

[65]雍佳乐，杨青，陈烽*，侯洵。飞秒激光仿生制备极端浸润性表面的研究进展。《科学通报》， 2019, 64, 1213-1237。Chin Sci Bull, 2019，64，1213-1237.

2018年：

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

[42] J. L. 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. (Review)

[43] J. L. 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.

[44] J. L. Yong^＃, J. Huo^＃, Q. Yang, F. Chen*, Y. Fang, X. Wu, L. Liu, 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)

[45] J. L. 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.

[46] J. L. 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. (Front Cover)

[47] C. Shan, J. L. Yong*#, Q. Yang, F. Chen*, J. Huo, J. Zhuang, Z. Jiang, X. Hou, Reversible switch between underwater superaerophilicity and superaerophobicity on the superhydrophobic nanowire-haired mesh for controlling underwater bubble wettability. AIP Advances, 2018, 8, 045001. (#共同一作)

[48] Y. Fang, J. L. Yong, F. Chen*, J. Huo, Q. Yang*, J. Zhang, X. Hou, Bioinspired Fabrication of Bi/Tridirectionally Anisotropic Sliding Superhydrophobic PDMS Surfaces by Femtosecond Laser. Adv. Mater. Interfaces, 2018, 5, 1701245. (Front Cover)

[49] 李文涛#，雍佳乐#，杨青*，陈烽*，方瑶，侯洵。基于特殊润湿性材料的油水分离。《物理化学学报》， 2018，34，456-475。Acta Phys.-Chim. Sin., 2018, 34, 456-475. (#共同一作)

[50] 张径舟，陈烽*，雍佳乐，杨青，侯洵。飞秒激光诱导仿生超疏水材料表面的研究进展。《激光与光电子进展》， 2018, 55, 110001。Laser & Optoelectronics Progress, 2018, 55, 110001.

2017年：

[34] J. L. Yong, F. Chen, Q. Yang, J. Huo and X. Hou, Superoleophobic Surfaces. Chem. Soc. Rev., 2017, 46, 4168-4213 (IF=34.09)

[35] J. L. 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.

[36] J. L. 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.

[37] J. L. 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.

[38] J. Huo, F. Chen, Q. Yang, J. L. Yong*, Y. Fang, J. Zhang, L. Liu and 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.

[39] J. Zhang, F. Chen*, Q. Yang, J. L. 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.

[40] N. Uddin, G. Du, F. Chen, Y. Lu, Q. Yang, H. Bian, J. L. Yong, X. Hou, Fano Resonance-Assisted Plasmonic Trapping of Nanoparticles. Plasmonics, 2017, 12, 627-630.

2016年：

[29] J. L. Yong, Y. Fang, F. Chen, J. Huo, Q. Yang, H. Bian, G. Du and 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.

[30] Y. Fang, J. L. Yong, F. Chen, J. Huo, Q. Yang, H. Bian, G. Du and X. Hou, Durability of the Tunable Adhesive Superhydrophobic PTFE Surfaces for Harsh Environment Applications. Appl .Phys. A, 2016, 122, 827.

[31] H. Bian, Y. Wei, Q. Yang, F. Chen, F. Zhang, G. Du, J. L. Yong and X. Hou, Direct Fabrication of Compound-Eye Microlens Array on Curved Surfaces by a Facile Femtosecond Laser Enhanced Wet Etching Process. Appl.Phys. Lett., 2016, 109, 221109.

[32] Y. Lu, G. Du, F. Chen, Q. Yang, H. Bian, J. L. Yong and X. Hou, Tunable Potential Well for Plasmonic Trapping of Metallic Particles by Bowtie Nano-Apertures. Sci. Rep., 2016, 6, 32675.

[33] H. Bian, C. Shan, K. Liu, F. Chen, Q. Yang, J. L. Yong and X. Hou, A Miniaturized Rogowski Current Transducer with Wide Bandwidth and Fast Response. J. Micromech. Microeng., 2016, 26, 115015.

2013.03~2016.03：

[1] J. L. Yong, F. Chen, Q. Yang, G. Du, C. Shan, H. Bian, U. Farooq and 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”，被“Chemistry World”采访报道，2015 Hot Paper of JMCA).

[2] J. L. Yong, F. Chen, Q. Yang, D. S. Zhang, U. Farooq, G. Q. Du, and X. Hou, Bioinspired Underwater Superoleophobic Surface with Ultralow Oil-Adhesion Achieved by Femtosecond Laser Microfabrication, J. Mater. Chem. A, 2014, 2, 8790-8795.

[3] J. L. Yong, Q. Yang, F. Chen, D. S. Zhang, U. Farooq, G. Q. Du, and 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.

[4] J. L. Yong, F. Chen, Q. Yang, U. Farooq and X. Hou, Photoinduced Switchable Underwater Superoleophobicity–Superoleophilicity on Laser Modified Titanium Surfaces, J. Mater. Chem. A, 2015, 3, 10703-10709.

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

[6] J. L. Yong, F. Chen, Q. Yang, Y. Fang, J. Huo, and X. Hou, Femtosecond Laser Induced Hierarchical ZnO Superhydrophobic Surfaces with Switchable Wettability, Chem. Commun., 2015, 51, 9813-9816.

[7] J. L. Yong, Q. Yang, F. Chen, H. Bian, G. Q. Du, U. Farooq and X. Hou, Reversible Underwater Lossless Oil Droplet Transportation, Adv. Mater. Interfaces, 2015, 2, 1400388. (Front Cover, Most read in 2015).

[8] J. L. Yong, F. Chen, Q. Yang, H. Bian, G. Du, C. Shan, J. Huo, Y. Fang and X. Hou, Oil-Water Separation: A Gift From the Desert. Adv. Mater. Interfaces, 2016, 3, 1500650. (Front Cover, Most read in 2016).

[9] J. L. Yong, F. Chen, Q. Yang, D. S. Zhang, G. Q. Du, J. H. Si, F. Yun, and X. Hou, Femtosecond Laser Weaving Superhydrophobic Patterned PDMS Surfaces with Tunable Adhesion. J. Phys. Chem. C, 2013, 117, 24907-24912.

[10] J. L. Yong, Q. Yang, F. Chen, D. S. Zhang, G. Q. Du, J. H. Si, F. Yun, and X. Hou, Superhydrophobic PDMS Surfaces with Three-Dimensional (3D) Pattern-Dependent Controllable Adhesion. Appl. Surf. Sci., 2014, 288, 579-583.

[11] J. L. Yong, F. Chen, Q. Yang, D. S. Zhang, H. Bian, G. Q. Du, J. H. Si, X. W. Meng, and X. Xou, Controllable Adhesive Superhydrophobic Surfaces Based on PDMS Microwell Arrays. Langmuir, 2013, 29, 3274-3279.

[12] J. L. Yong, F. Chen, Q. Yang, and X. Hou, Femtosecond Laser Controlled Wettability of Solid Surfaces. Soft Matter, 2015, 11, 8897. (Review).

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

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

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

[16] J. L. Yong, Q. Yang, F. Chen, D. S. Zhang, G. Q. Du, H. Bian, J. H. Si, F. Yun, and X. Hou, A Bioinspired Planar Superhydrophobic Microboat. J. Micromech. Microeng., 2014, 24, 035006.

[17] J. L. Yong, Q. Yang, F. Chen, D. S. Zhang, H. Bian, Y. Ou, J. H. Si, G. Q. Du, and X. Hou. Stable Superhydrophobic Surface with Hierarchical Mesh-Porous Structure Fabricated by a Femtosecond Laser. Appl. Phys. A, 2013, 111, 243-249.

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

[19] Z. Deng, F. Chen, Q. Yang, H. Bian, G. Du, J. L. Yong, C. Shan and X. Hou, Dragonfly-eye-inspired artificial compound eyes with sophisticated imaging. Adv. Funct. Mater., 2016, 26, 1995-2001. (Front Cover)

[20] D. S. Zhang, F. Chen, Q. Yang, J. L. Yong, H. Bian, Y. Ou, J. H. Si, X. W. Meng, and X. Hou, A Simple Way to Achieve Pattern-Dependent Tunable Adhesion in Superhydrophobic Surfaces by a Femtosecond Laser. ACS Appl. Mater. Interfaces, 2012, 4, 4905-4912.

[21] F. Chen, D. S. Zhang, Q. Yang, J. L. Yong, G. Q. Du, J. H. Si, F. Yun, and X. Hou, Bioinspired Wetting Surface via Laser Microfabrication. ACS Appl. Mater. Interfaces, 2013, 5, 6777-6792.

[22] Z. Deng, Q. Yang, F. Chen, X. Meng, H. Bian, J. L. Yong, C. Shan and X. Hou, Fabrication of Large-Area Concave Microlens Array on Silicon by Femtosecond Laser Micromachining. Opt. Lett., 2015, 40, 1928-1931.

[23] C. Shan, F. Chen, Q. Yang, Y. Li, H. Bian, J. L. Yong and X. Hou, High-Level Integration of Three-Dimensional Microcoils Array in Fused Silica, Opt. Lett., 2015, 40, 4050-4053.

[24] Q. Yang, S. Tong, F. Chen, Z. Deng, H. Bian, G. Du, J. L. Yong and X. Hou, Lens-on-lens microstructures. Opt. Lett., 2015, 40, 5359-5363.

[25] Z. Deng, Q. Yang, F. Chen, H. Bian, J. L. Yong, G. Du, Y. Hu and X. Hou, High-performance laser beam homogenizer based on double-sided concave microlens. IEEE Photon. Techno. Lett., 2014, 26, 2086-2089.

[26] Y. Ou, Q. Yang, F. Chen, Z. Deng, G. Du, J. Wang, H. Bian, J. L. Yong and X. Hou, Direct fabrication of microlens arrays on PMMA with laser-induced structural modification. IEEE Photon. Techno. Lett., 2015, 27, 2253-2256.

[27] G. Du, Q. Yang, F. Chen, Y. Lu, H. Bian, J. L. Yong and X. Hou, Localized surface plasmon resonances in core-embedded heterogeneous nano-bowtie antenna. Appl. Phys. B, 2015, 120, 47-51.

[28] G. Du, Q. Yang, F. Chen, Y. Lu, Y. Ou, J. L. Yong and X. Hou, Dynamic near-filed nanofocusing by V-shaped metal groove via a femtosecond laser excitation. Appl. Phys. A, 2016, 122, 185.