电子科学与工程学院
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导师代码: |
12495
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导师姓名: |
杨光
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性 别: |
男 |
特 称: |
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职 称: |
副研究员
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学 位: |
工学博士学位
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属 性: |
专职 |
电子邮件: |
winner029
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126.com
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学术经历:
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教育背景
2011.09-2018.05 宾夕法尼亚州立大学(美),材料科学与工程专业(美Top10)
,博士学位 (2012.09-2014.07 宾夕法尼亚州立大学生物医学工程系在读研究生
2011.09-2012.07 宾夕法尼亚州立大学材料科学与工程系在读研究生)//
2008.09-2011.04 西北工业大学,生物医学工程专业,
2004.09-2008.07 西北工业大学,高分子材料与工程专业,学士学位//
工作履历
2018.09-现在 电子科学与工程学院,副研究员
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个人简介:
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杨光,Ph.D in Materials Science and Engineering from The Pennsylvania State University。主要研究方向为新型高分子及复合材料的的设计,合成及其在新能源和电子信息领域的应用。以第一作者或唯一通讯作者在《Advanced Materials》、《Chemistry of Materials》、《Energy Storage Materials》、《Journal of Materials Chemistry A》,《Chemical Engineering Journal》 等JCR Top期刊或主流杂志上发表多篇论文。发表SCI论文30余篇,SCI引用次数1000+。授权和申请发明专利5项。撰写专著章节一章。 美国化学会(ACS)会员。
荣誉奖励:四川省特聘专家青年项目(2018),蒋震海外研究生奖学金(2011)
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科研项目:
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负责国家自然科学基金青年项目,国家自然科学基金联合基金项目, 高校基本科研业务费。 主研参与多项GF重点项目
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研究成果:
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☆Yaduo Song, Yanxin Jiang, Longjiang Deng, Guang Yang*, Self-Repairable and Flexible Polymer Network Electrolyte with Enhanced Lithium-Ion Conduction for Lithium Metal Batteries, Chemistry-A European Journal 2022, Accepted.
☆Yanxin Jiang, Yaduo Song, Xing Chen, Hongjian Wang, Longjiang Deng, Guang 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 Materials 2022. https://doi.org/10.1016/j.ensm.2022.08.027
☆Qingqing Hu, Liang Chai, Ke Liang, Yanxin Jiang, Guang Yang*, Longjiang Deng et al. Effective corrosion protection of magnetic microwave absorber with
designed macromolecular network barrier, Rare Metals, accepted (2022).
☆Guang Yang*, Qingqing Hu, Wenhao Yang, Wangyi Zeng, Yanxin Jiang, Liang Chai, and Longjiang Deng, Corrosion Resistance Enhancement and Superhydrophobic Surface Realization of Flake Magnetic Particles with Organic Polyolefin Copolymer Modification, Materials Today Communications, 2022, 30,10311.
☆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
☆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, 9.11 (2021):6881-6889
☆Xu,G.X., Yang, G.*, Wu D.X., Yao M., Xing C. X., Zhang J. H., Zhang H. T.*, Li F.*, Feng Y. Z., Qi S. H., Zhuo M.*, Ma J.M.*, Roadmap on Ionic Liquid Electrolytes for Energy Storage Devices, Chemistry-An Asian Journal, accepted 2020, 16(6),549-562
☆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 and Design, 190, 108563(2020)
☆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)
☆Yang, G., Oh, H., Chanthad, C., Wang, Q. Dumbell-Shaped Octasilsesquioxanes Functionalized with Ionic Liquids as Hybrid Electrolyte for Lithium Metal Batteries. Chemistry of Materials 29(21), 9275-9283. (2017)
☆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 5(34),18012.(2017)
☆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)
☆Yang, G., Kampstra, K. L., & Abidian, M. R. High performance conducting polymer nanofiber
biosensors for detection of biomolecules. Advanced Materials, 26(29), 4954-4960.(2014)
☆Yang, G., Lee, Y.M., Wang, Q. Polymer electrolytes for lithium ion batteries. Encyclopedia of Polymer Applications, 3 Volume Set. CRC press.
☆Yang, G., Fan, X.D., Tian W., Mu C.G., Cheng G.W., Review of Synthesis of Glycopolymers via “Living”/controlled Radical Polymerization. Polymer Materials Science and Engineering, 27 (6), 182-190. (2011)
☆Fattahi, P., Yang, G., Kim, G., & Abidian, M. R. A review of organic and inorganic biomaterials for
neural interfaces. Advanced Materials, 26(12), 1846-1885.(2014, cover story)
☆Park, S., Yang, G., Madduri, N., Abidian, M. R., & Majd, S. Hydrogel-Mediated Direct Patterning of
Conducting Polymer Films with Multiple Surface Chemistries. Advanced Materials, 26(18), 2782-2787.(2014, cover story)
☆Liu F, Li Q, Cui J, Li Z, Yang G, Liu Y, Dong L, Xiong C, Wang H, Wang Q. High‐Energy‐Density Dielectric Polymer Nanocomposites with Trilayered Architecture. Advanced Functional Materials.(2017,cover story )
☆Oh, H., Xu, K., Yoo, H.D., Kim, D.S., Chanthad, C., Yang, G., Jin, J., Ayhan, I.A., Oh, S.M. and Wang, Q., Poly (arylene ether)-based single-ion conductors for lithium-ion batteries. Chemistry of Materials, 28(1), pp.188-196. (2015)
☆Aziguli H, Chen X, Liu Y, Yang G, Yu P, Wang Q.Applied Physics Letters, 112, 193902 (2018)
☆Fan B, Yang G, Li M, Liu P, Qiu S, Shen M, Liu H, Zhang G, Wang Q, Jiang S. Ceramic International (2018, accepted)
☆Li Z, Liu F, Yang G, Li H, Dong L, Xiong C, and Wang Q. Composite Science and Technology (2018, accepted)
☆Ayhan, I.A., Li, Q., Meduri, P., Oh, H., Bhimanapati, G.R., Yang, G., Robinson, J.A. and Wang, Q., Effect of Mn3 O4 nanoparticle composition and distribution on graphene as a potential hybrid anode material for lithium-ion batteries. RSC Advances, 6(39), pp.33022-33030. (2016)
☆Zhang Y, Zhu W, Jeong C, Sun H, Yang G, Chen W, Wang Q, Microcube-Based Hybrid Piezocomposite as Flexible Energy Generators. RSC Advances 7.52, 32502-32507. (2017)
☆Tian, W., Wei, X., Yang, G., & Fan, X. Synthesis of amphiphilic hyperbranched polymers for the
controlled release of double-guest molecules. Journal of Controlled Release, 152, e97-e98.(2011)
☆Zhao, Y., Tian, W., Yang, G., & Fan, X. Linear-g-hyperbranched and cyclodextrin-based amphiphilic
block copolymer as a multifunctional nanocarrier. Beilstein journal of organic chemistry, 10(1), 2696-2703. (2014)
☆Liu, P., Fan, B., Yang, G., Li, W., Zhang, H., & Jiang, S. (2019). High energy density at high temperature in PLZST antiferroelectric ceramics. Journal of Materials Chemistry C.
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专业研究方向:
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专业名称 |
研究方向 |
招生类别 |
080900电子科学与技术 |
05电子信息材料与元器件 |
硕士学术学位 |
085600材料与化工 |
01电子材料与器件 |
硕士专业学位 |
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