翁子骧，博士，现任中国科学院福建物质结构研究所正高级工程师一职。其2016年毕业于中国科学院大学，获博士研究生学位。2016-2018年在海外工作任博士后一职。2019年获福建省海外高层次引进人才C类。研究方向为光固化3D打印树脂、纳米复合材料等。主持福建省自然科学基金面上基金一项，以第一作者和通讯作者发表SCI论文10余篇。协助培养博士生两名，均获得中国科学院福建物构所奖学金。翁子骧博士注重将实验室成果落地扩大，其与福建省内多家企业签订了横向课题。现阶段主要方向包括功能化树脂的合成与改性，弹性体材料的制备与表征，高性能预聚物的合成与改性。其研究特色在于提出纳米粒子改性3D打印有机树脂的有机/无机纳米复合材料体系研究，以及构建高缠绕微交联型光固化弹性体的制备。

1. X. Zhou, W. Zhang, S. Peng, Z. Zhao, W. Chen, X. Ding, L. Wu*, Z. Weng*, Scalable Preparation of Superdurable, Self-Healing, and Biocompatible Superhydrophobic Poly(ethylene terephthalate) Fabrics, ACS Applied Materials & Interfaces, 16 (2024) 70933-70947.

2. Zhou X., Huang X., Zhang L., Zheng L., Wang R., Wu L.*, Weng Z.*, Preparation of high thermal conductivity vat photopolymerization used UV-curable resin synergistically enhanced by silicon nitride and boron nitride, Ceramics International, 2024, 50 (13), 23441-23450.

3. Weng Z.*, Huang X., Peng S., Zheng L., Wu L.*, 3D printing of ultra-high viscosity resin by a linear scan-based vat photopolymerization system, Nature Communications, 2023, 14 (1), 4303-4312.

4. Wang Z., Zheng L., Wu L.*, Weng Z.*, Scalable preparation of efficiently self-healing and highly transparent omniphobic coating for glass, Progress in Organic Coatings, 2023, 182, 107606-107617.

5. Thirunavukkarasu N., Gunasekaran H. B., Peng S., Laroui A., Wu L.*, Weng Z.*, Study on the interface toughening of particle/fibre reinforced epoxy composites with molecularly designed core–shell particles and various interface 3D models, Materials & Design, 2023, 225, 111510-111523.

6. Thirunavukkarasu N., Gao J., Peng S., Laroui A., Wu L.*, Weng Z.* Mechanically robust 3D printed elastomeric lattices inspired by strong and tough hierarchical structures, Additive Manufacturing, 2023, 66, 103451-103463.

7. Liu S., Huang X., Peng S., Zheng Y., Wu L.*, Weng Z.* Study on the preparation of long-term stability core–shell particles/epoxy acrylate emulsion and toughening improvement for 3D printable UV-curable resin, Journal of Polymer Research, 2023, 30 (3), 122-134.

8. Huang X., Peng S., Zheng L., Zhuo D., Wu L.*, Weng Z.*, 3d Printing of High Viscosity UV‐curable Resin for Highly Stretchable And Resilient Elastomer, Advanced Materials 2023, 2304430-2304444.

9. Yang Z., Peng S., Wang Z., Miao J.-T., Zheng L., Wu L.*, Weng Z.*, UV-curable, low-viscosity resin with a high silica filler content for preparing ultrastiff, 3D-printed molds, ACS Applied Polymer Materials, 2022, 4 (4), 2636-2647.

10. Wang Z., Peng S., Wu L.*, Weng Z.*, Construction of ultra-long service life self-cleaning slippery surface on superhydrophobicity functionalized by ATRP treatment, Chemical Engineering Journal, 2022, 428, 130997-131007.

11. Thirunavukkarasu N., Peng S., Gunasekaran H. B., Yang Z., Wu L.*, Weng Z.*, Responsive friction modulation of 3D printed elastomeric bioinspired structures, Tribology International, 2022, 175, 107823-107833.

12. Peng S., Guo Q., Thirunavukkarasu N., Zheng Y., Wang Z., Zheng L., Wu L.*, Weng Z.*, Tailoring of photocurable ionogel toward high resilience and low hysteresis 3D printed versatile porous flexible sensor, Chemical Engineering Journal, 2022, 439, 135593-135602.

13. Zou Y., Huang Y., Si D., Yin Q., Wu. Q, Weng Z., Cao R.*, Porous metal–organic framework liquids for enhanced CO₂ adsorption and catalytic conversion. Angewandte Chemie, 2021, 133 (38), 21083-21088.

14. Peng S, Wang Z, Lin J, Miao J. T., Zheng L., Yang Z., Weng Z.*, Wu L.*, Tailored and highly stretchable sensor prepared by crosslinking an enhanced 3D printed UV‐curable sacrificial mold, Advanced Functional Materials, 2021, 31 (10), 2008729-2008738.

15. Li Y., Zheng L., Peng S., Miao J.-T., Zhong J., Wu L.*, Weng Z.*, Structure–Property Relationship of Stereolithography Resins Containing Polysiloxane Core–Shell Nanoparticles, ACS Applied Materials & Interfaces, 2020, 12 (4), 4917-4926.