田思宇

入职时间:2024-06-19

所在单位:材料科学与工程学院

学历:研究生(博士)毕业

办公地点:特冶楼310

性别:男

学位:博士学位

在职信息:在职

毕业院校:德克萨斯大学达拉斯分校(UTDallas)

   
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个人简介

田思宇,博士,毕业于美国德克萨斯大学达拉斯分校,获最佳博士论文奖及国家优秀自费留学生奖学金。主要研究兴趣为锌基储能材料与器件,目前以一作或通讯在Journal of the American Chemical Society、Advanced Energy MaterialsACS Nano2)、Chemical Engineering Journal 2)、International Journal of Heat and Mass Transfer2)等期刊上发表研究论文;申请美国国家发明专利一项;主持包括湖南省自然科学基金青年基金等项目2项。

 

代表性学术成果

  1. Weijie Fan1, Siyu Tian1 and Jiang Zhou*, et al. Inner-sphere electron transfer enabling highly reversible Mn2+/MnO2 conversion toward energy-dense electrolytic zinc–manganese batteries. Journal of the American Chemical Society, 2025, 

  2. Siyu Tian* and Jiang Zhou*, et al. Cationic adsorption-induced microlevelling effect: A pathway to dendrite-free zinc anodes. Nano-Micro Letters, 2025, 17, 202.

  3. Siyu Tian1 and Taesoon Hwang1, et al. Transforming detrimental crystalline zinc hydroxide sulfate to homogeneous fluorinated amorphous solid-electrolyte interphase on zinc anode. ACS Nano, 2025, 19, 3135-3146.

  4. Siyu Tian* and Jiang Zhou*, et al. An ionically cross-linked composite hydrogel electrolyte based on natural biomacromolecules for sustainable zinc-ion batteries. Nanoscale Horizons, 2024, 9, 1514-1521.

  5. Siyu Tian* and Jiang Zhou*, et al. Inducing preferential growth of the Zn (002) plane by using a multifunctional chelator for achieving highly reversible Zn anodes. Nanoscale, 2024, 16, 292302930.

  6. Siyu Tian, et al. Suppressing dendrite growth and side reactions via mechanically robust laponite-based electrolyte membranes for ultrastable aqueous zinc-ion batteries. ACS Nano, 2023, 17, 14930-14942.

  7. Siyu Tian, et al. A low-cost quasi-solid-state “water-in-swelling-clay” electrolyte enabling ultrastable aqueous zinc-ion batteries. Advanced Energy Materials. 2023, 13, 2300782.

  8. Siyu Tian, et al. A self-assembled nanoporous polyelectrolytic interlayer for highly stable zinc metal anodes. Chemical Engineering Journal. 2023, 462, 142276.

  9. Siyu Tian, et al. High-performance solid-state supercapacitors integrated with thermal management systems based on phase change materials: All in one. Chemical Engineering Journal. 2022, 446, 136787.

  10. Siyu Tian, et al. Anisotropically tuning interfacial thermal conductance between graphite and poly (ethylene oxide) by lithium-ion intercalation: A molecular dynamics study. International Journal of Heat and Mass Transfer, 2022, 195, 123134.

  11. Siyu Tian1 and Dezhao Huang1, et al. Enhanced thermal transport across the interface between charged graphene and poly (ethylene oxide) by non-covalent functionalization. International Journal of Heat and Mass Transfer, 2022, 183, 122188.

 

教育经历

[1] 2010.09-2014.06:华中科技大学|材料科学与工程|学士

[2] 2014.09-2017.06:华中科技大学|材料学|硕士

[3] 2018.09-2023.12:美国德克萨斯大学达拉斯分校|机械工程|博士

 

工作经历

2024.06-至今:中南大学|材料科学与工程|讲师

 

研究方向

[1] 锌基储能材料与器件、水系电解质、凝胶电解质

 

科研项目

[1] 湖南省自然科学基金青年基金项目,主持

[2] 长沙市自然科学基金项目,主持

[3] 中南大学新进人才科研启动项目,主持