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  • 杨光 ( 副研究员 )

    的个人主页 http://faculty.uestc.edu.cn/yangguang1/zh_CN/index.htm

  •   硕士生导师

个人简介

研招网页面https://yjsjy.uestc.edu.cn/gmis/jcsjgl/dsfc/dsgrjj/12495?yxsh=02


杨光,入选四川省天府峨眉计划,长期从事于功能高分子及相关材料体系的结构设计,合成及其在新能源和电子信息领域的应用研究, 积累较为丰富的功能聚合物科研相关经验。 研究方向包括高性能锂电池聚合物固态/准固态/凝胶电解质,柔性显示和柔性电子用聚酰亚胺材料和柔性传感,电磁功能材料耐腐蚀改性。博士毕业于美国宾夕法尼亚州立大学(Penn State University)材料科学与工程系 (MatSE)。以第一作者或通讯作者在《Advanced Materials》、《Small》、《Chemistry of Materials》、《Energy Storage Materials》、《Journal of Materials Chemistry A》(3)、《ACS Applied Materials & Interfaces》、《Chemical Engineering Journal》、《Polymer Chemistry》等JCR Top期刊或主流杂志上发表20余篇论文。共发表SCI论文40余篇,引用次数大于2500次。授权和申请发明专利10项。撰写Taylor & Francis 出版社专著章节一章。 美国化学会(ACS)会员。负责国家自然科学基金青年项目,国家自然科学基金区域联合基金项目(合作单位负责人),主研参与多项GF重大重点科研项目。受邀担任自然通讯(Nature Communications)、美国化学会志(JACS)、先进材料(Advanced Materials)等十余种主流Top期刊评审人, 国内国际会议做邀请报告十余次。

ORCID0000-0002-6851-0918


Email:winner029@126.com


研究内容:

1,用于下一代储能技术的固态/准固态/凝胶聚合物电解质的研究和性能优化(例如锂金属电池)。

2020年以后部分科技论文:

  Small 2025, 2502940 

 Journal of Materials Chemistry A, 2024,12, 20288-20299

 ACS Applied Materials & Interfaces, 2023, 15 (38), 44848-44858

 Energy Storage Materials, 2022, 52, 514-523

 Chemistry–A European Journal,2022, 28 (72), e202202717

 Journal of Materials Chemistry A, 2021, 9 (11), 6881-6889

 Materials & Design, 2020,190, 108563

2,柔性显示/电子用聚酰亚胺膜,柔性传感,耐腐蚀包覆


Journal of Polymer Science, 2026, doi:10.1002/pola.70194

Journal of Polymer Science, 2025; 63:26152625

Progress in Organic Coatings, 2024,188, 108251

Rare Metals, 2023, 42 (2), 558-571

Chemical Engineering Journal,2023, 455, 140532

Chemistry–A European Journal,2023, 29 (21), e202203478

Chemistry–A European Journal,2023, 29 (57), e202301800

Langmuir,2023, 39 (36), 12878-12889

荣誉奖励:四川省特聘专家青年项目(2019),蒋震海外研究生奖学金(2011),校优秀硕士学位论文指导老师  (2023)


学术和社会兼职:担任十余种国际知名学术期刊审稿人,四川省科技专家库专家。四川,广西,河北等省级科技厅项目评审专家。


部分论文:

Ø  Z.H.Zhou, G. Yang*, H. L. Li,Z. S. Yang, et al. Regulating Li+ Solvation, Transport, and Interfacial Robustness via Voltage Resistant Cationic Copolymer Design for Safe Lithium Metal Batteries, Small, 2025, 2502940

Ø  Z.S. Yang, H.Y. Liu, P.H. Zhou, H. L. Li, Z. H. Zhou, G. Yang*, Thermally Stable, Hydrophobic Colorless Polyimides with High Strength and Excellent Dimensional Stability for Flexible Optoelectronics and ElectronicsJournal of Polymer Science, 2025; 63:26152625

Ø  L. Chai, Z.H. Zou, Z.S. Yang, G. Yang*, The role of zwitterionic crosslinks in facilitating ion conduction, lithium deposition, and stable interface formation for polymer electrolyte-based lithium metal batteries, Journal of Materials Chemistry A, 2024,12, 20288-20299

Ø  K. Liang, Z.S. Yang, Z.H. Zhou, L. B. Zhang, H. P. Lu, G. Yang*, Surface corrosion protection designing of particulate electromagnetic material towards self-healable functional composite, Progress in Organic Coatings 188 (2024) 108251

Ø  W.H. Yang, W.Y.Zeng, L. Chai, Y. X. Jiang, L.J.Deng, G. Yang*, Waterproof, Light Responsive, and Highly Sensitive Fabric Strain Sensor for Flexible Electronics, Langmuir , 2023, 39, 12878−12889

Ø  Y.X.Jiang, Liang Chai, L.J. Deng, G. Yang*Rationally Designed Fluorinated Polycation Electrolytes for High-Rate, Dendrite-Free Lithium Metal Batteries, ACS Applied Materials & Interfaces, 2023, 15, 44848−44858

Ø  W.Y. Zeng, W.H.Yang, L. Chai, Y.X. Jiang, L.J. Deng, G. Yang*Liquid-Free, Self-Repairable, Recyclable, and Highly Stretchable Colorless Solid Ionic Conductive Elastomers for Strain/Temperature Sensors, Chemistry-A European Journal, 2023, 29, e202203478

Ø  W.Y. Zeng, L.J. Deng, G. Yang*, Self-healable Elastomeric Network with Dynamic Disulfide, Imine, and Hydrogen Bonds for Flexible Strain Sensor. Chemistry-A European Journal, 2023, 29, e202203478 

Ø  W.H. Yang, B. Yao, L. Chai, G. Yang*, L.J.Deng, Multifunctional conductive sponge with excellent superhydrophobicity, piezoresistivity, electro/light to heat conversion, and oil/water separation performance, Chemical Engineering Journal2022DOI:10.1016/j.cej.2022.140532

Ø  Y.D. Song, Y.X. Jiang, L.J. Deng, G. Yang*, Self-Repairable and Flexible Polymer Network Electrolyte with Enhanced Lithium-Ion Conduction for Lithium Metal Batteries, Chemistry-A European Journal202228e202202717 

Ø  Y.X. Jiang, Y.D. Song, X. Chen, H.J. Wang, L.J. Deng, G. Yang*, In situ formed self-healable quasi-solid hybrid electrolyte network coupled with eutectic mixture towards ultra-long cycle life lithium metal batteries, Energy Storage Materials2022, 52,514-523. 

Ø  Q.Q. Hu, L. Chai, K. Liang, Y.X. Jiang, G. Yang*, L.J. Deng et al. Effective corrosion protection of magnetic microwave absorber with designed macromolecular network barrier, Rare Metals ,(2023) 42(2):558–571

Ø  G. Yang*, Q.Q. Hu, W.H. Yang, W.Y. Zeng, Y.X. Jiang, L. Chai, and L.J. Deng, Corrosion Resistance Enhancement and Superhydrophobic Surface Realization of Flake Magnetic Particles with Organic Polyolefin Copolymer Modification, Materials Today Communications, 2022, 30,10311

Ø  Y.D. Song, Y.X Jiang, Q.Q. Hu, L. J. Deng, and G.Yang*, Covalently linked Polymer/Inorganic Hybrid Electrolyte with Ionic Liquid for Lithium Metal Batteries, Chemistry Select, 2021, 6(32):8416-8421.

Ø  Yang, G., Song, Y.D., and Deng L. J., Polyaddition Enabled Functional Polymer/Inorganic Hybrid Electrolytes for Lithium Metal Batteries. Journal of Materials Chemistry A, 2021 9(11):6881-6889. 

Ø  Xu,G.X., Yang, G.*, Wu D.X., Yao M., Xing C. X.,.... Ma J.M.*, Roadmap on Ionic Liquid Electrolytes for Energy Storage Devices, Chemistry-An Asian Journal, 2020, 16(6),549-562  (共同通讯)

Ø  Yang, G., Song, Y.D., Wang, Q., Zhang L. B., Deng L. J. Review of ionic liquids containing polymer/inorganic hybrid electrolytes for lithium metal batteries. Materials & Design, 2020, 190, 108563.

Ø  Yang, G., Fan, B, Liu F, Yao F, Wang, Q. Ion Pair Integrated Organic-Inorganic Hybrid Electrolyte Network for Solid-State Lithium Ion Batteries. Energy Technology, 6(12), 2319-2325.(2018)

Ø  Yang, G., Oh, H., Chanthad, C., Wang, Q. Dumbell-Shaped Octasilsesquioxanes Functionalized with Ionic Liquids as Hybrid Electrolyte for Lithium Metal Batteries. Chemistry of Materials2017, 29(21), 9275-9283.

Ø  Yang, G., Chanthad, C., Hyukkeun, O., Wang, Q. Organic-Inorganic Hybrid Electrolytes from Ionic Liquid-Functionalized Octasilsesquioxane for Lithium Metal Batteries. Journal of Materials Chemistry A, 2017 5(34),18012. 

Ø  Yang, G., Yang, Z., Mu, C., Fan, X., Tian, W., & Wang, Q. A dual stimuli responsive fluorescent probe carrier from a double hydrophilic block copolymer capped with β-cyclodextrin. Polymer Chemistry, 6(18), 3382-3386. (2015)

Ø  Yang, G., Kampstra, K. L., et al. High performance conducting polymer nanofiber biosensors for detection of biomolecules. Advanced Materials, 2014, 26(29), 4954-4960. 

Ø  Park, S., Yang, G., Madduri, N. et al. Hydrogel-Mediated Direct Patterning of Conducting Polymer Films with Multiple Surface Chemistries. Advanced Materials, 26(18), 2782-2787.

Ø  Fattahi P., Yang. G., Kim G., et al., A review of organic and inorganic biomaterials for neural interfaces.Advanced Materials,26(18),1846-1885.


Book Chapter

Guang Y., Youngmin L.,and Qing. W., Enegy:Polymer Electrolytes for Lithium Ion Batteries, Encyclopedia of Polymer Application, First Edition,2018 by Taylor & Francis.


发明专利:

ZL 2021 1 0021916.5 一种交联树脂包覆的片状羰基铁粉的制备方法

ZL 2022 1 0600757.9  一种三维网络结构的自愈合弹性体的制备方法与应用

ZL 2022 1 0026246.0 一种自修复复合固态锂离子电池电解质及其制备方法

ZL 2022 1 0398281.5  一种超疏水海绵状三维导电复合材料及其制备方法和应用

ZL 2022 1 1483973.6   一种具有双层导电网络的超疏水导电无纺布的制备方法和应用

ZL 2023 1 0238520.5 (一种可自修复电磁复合材料的制备方法)



学生毕业去向:上市公司,国防企业,或继续深造。


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