教育背景
1993年 清华大学化学系,学士
1996年 中国科学院化学研究所,硕士
1999年 日本分子科学研究所,博士
工作经历
1999 – 2000 日本分子科学研究所,研究员
2000 – 2001 日本北陆先端科学技术大学院大学,助理教授
2001 – 2006 美国加利福尼亚大学洛杉矶分校材料科学与工程系,博士后
2006 – 2012 新加坡国立大学材料科学与工程系,助理教授
2012 – 至今 新加坡国立大学材料科学与工程系,副教授
研究领域
柔性热电材料
柔性电子学
突破性研究
2020发明了世界上首个可拉伸和自粘合的导电聚合物共混物及其在生物电势电极中的应用
2020发明了世界上第一个混合离子/电子热电转换器(HTEC)
2020发表了ZTi为1.47的离子热电材料的世界纪录
2020发表了离子热电材料的塞贝克系数的世界纪录:26 mV/K (2019), 34.5 mV/K
发表了热电聚合物的功率因子的世界纪录:334 uW/(m K2) (2017), 754 uW/(m K2)
2012发表了PEDOT:PSS的电导率超过3000 S/cm,这是当时PEDOT:PSS的世界上最高的电导率
2004发明了世界上第一个聚合物/纳米粒子忆阻存储器
2004提出了对PEDOT:PSS二次掺杂的机制,这是导电聚合物领域的一个经典工作
荣誉奖项
• 2015 Distinguished Award for Novel Materials and Their Synthesis by International Union of Pure and Applied Chemistry & Organization Committee of Novel Materials and Their Synthesis, (IUPAC & NMS)
• 2007 NUS Young Investigator Award
• 2005 Co-winner of Beijing Science and Technology Award
• 1999 Amada Award for Science and Technology Research, the Japan-China Science and Technology Exchange Association, Tokyo, Japan
• 中国科学院院长奖学金特别奖
代表性论文
[1] Hao He, Lei Zhang, Shizhong Yue, Suzhu Yu, Jun Wei, and Jianyong Ouyang*, Enhancement in the mechanical stretchability of PEDOT:PSS films by compounds of multiple hydroxyl groups for their application as transparent stretchable conductor, Macromolecules, 2021, 54, 1234.
[2] M. Imran,* H. Coskun, N. A. Khan and J. Ouyang, Role of annealing temperature of nickel oxide (NiOx) as hole transport layer in work function alignment with perovskite, Applied Physics A, 2021, 127, 1-8.
[3] Zeng Fan, Yaoyun Zhang, Lujun Pan,* Jianyong Ouyang,* and Qian Zhang, Recent developments in flexible thermoelectrics: From materials to devices, Renewable and Sustainable Energy Reviews, 2021, 137, 110448.
[4] Hao He and Jianyong Ouyang, Enhancements in the Mechanical Stretchability and Thermoelectric Properties of PEDOT:PSS for Flexible Electronics Applications, Accounts of Materials Research, 2020, 1, 146-157. (R-284-000-228-112)
[5] Shan Wang, Yuanlai Fang, Hao He, Lei Zhang, Chang’an Li, and Jianyong Ouyang*, Wearable stretchable dry and self-adhesive strain sensors with conformal contact to skin for high-quality motion monitoring, Advanced Functional Materials, 2021,31, 2007495. (R-284-000-220-114)
[6] Yuanlai Fang, Hanlin Cheng*, Hao He, Shan Wang, Jianmin Li, Shizhong Yue, Lei Zhang, Zongliang Du, and Jianyong Ouyang*, Stretchable and transparent ionogels with high thermoelectric properties, Advanced Functional Materials, 2004699.
[7] Lei Zhang, Senthil Kumar Kirthika, Hao He, Catherine Jiayi Cai, Xu He, Huxin Gao, Shizhong Yue, Changsheng Li, Raymond Chee-Seong Seet, Hongliang Ren*, Jianyong Ouyang*, Fully Organic, Skin-compliant, Self-adhesive and Stretchable Dry Electrodes for Long-term Motion-robust Epidermal Biopotential Monitoring, Nature Communications, 2020, 11, 4683.
[8] Hanlin Cheng and Jianyong Ouyang, Ultrahigh Thermoelectric Power Generation from Both Ion Diffusion by Temperature Fluctuation and Hole Accumulation by Temperature Gradient, Advanced Energy Materials, 2020, 10, 2001633. (R-284-000-228-112)
[9] Xin Guan, Erol Yildirim, Zeng Fan, Wanheng Lu, Bichen Li, Kaiyang Zeng, Shuo-Wang Yang and Jianyong Ouyang, Thermoelectric Polymer Films with Significantly High Seebeck Coefficient and Thermoelectric Power Factor through Surface Energy Filtering, Journal of Materials Chemistry A, 2020, 8, 13600.
[10] Xu He, Hanlin Cheng*, Shizhong Yue, Jianyong Ouyang*, Quasi-Solid State Nanoparticle/(Ionic Liquid) Gels with Significantly High Ionic Thermoelectric Properties, Journal of Materials Chemistry A, 2020, 8, 10813 - 10821.
专著
[1] Lijun Hu, Ke Yang, Wei Chen, Falin Wu, Jiehao Fu, Wenbo Sun, Hongyan Huang, Baomin Zhao, Kuan Sun and Jianyong Ouyang, Chapter 14 “Electrode Materials for Printable Solar Cells” in “Printable Solar Cells” ed. By Nurdan Demirci Sankir and Mehmet Sankir, Scrivener Publishing, 2017, pages 457-512.
[2] Jianyong Ouyang, “Emerging Resistive Switching Memories”, Springer Briefs in Materials, Springer, 2016.
[3] Nishanth K. Gopalan, Abhijit Dutta, and Jianyong Ouyang, “Carbon nanomaterials as electrocatalysts for energy conversion” in volume 11 “Hydrogen and Other Technologies” of the Series “Energy science and technology”, Studium Press, to be published
[4] Jianyong Ouyang, “Two-terminal organic memories with metal or semiconductor nanoparticles” in “Charge-trapping nonvolatile memories”, ed. by P. Dimitrakis, Springer, to be published.
[5] Kuan Sun, Yijie Xia and Jianyong Ouyang, “Next-generation transparent electrode materials for organic solar cells” in “Solar cell materials, devices and systems”, Taylor and Francis, to be published.
[6] Jianyong Ouyang, Chapter 14 “Application of graphene and graphene oxide in dye-sensitized solar cells” in “Handbook of graphene science”, CRC press, to be published.
[7] Yijie Xia and Jianyong Ouyang, Chapter 9 “Transparent conducting polymers” in “Organic Optoelectronic Materials” ed. by Yongfang Li, Springer, to be published.
[8] Jianyong Ouyang, Chapter 12 “Organic/Polymeric Films with Resistive-Switching Behavior and Their Application as Nonvolatile Memory Devices” in “Nonvolatile Memories: Materials, Devices and Application”, volume 2, page 1-19, ed. By Tseung-Yuen Tseng and Simon M. Sze, American Scientific Publishers, 2012.
[9] Yang Yang, Jianyong Ouyang, Liping Ma, Chih-Wei Chu and Ricky Tseng, Chapter 15 “Polymer and Organic Thin-Film Memory Devices” in Semiconducting Polymers: Chemistry, Physics and Engineering, Second Edition”, ed. Georges Hadziioannou & George G. Malliaras, Wiley-VCH, 2006.
[10] Jianyong Ouyang, Chih-Wei Chu, Ricky Tseng and Yang Yang, Chapter 8 “Electrical Bistable Polymer Films and Their Applications in Memory Devices” in Handbook of Conducting Polymers, 3rd edition (editors: T. A. Skotheim and J. Reynold), CRC Press, 2006, p311.
[11] Yang Yang, Liping Ma, Jianyong Ouyang, Jun He, Hai Ming Liem, Chih-Wei Chu and Ankita Prakash, “Organic Nonvolatile Memories” in chapter 2 of book Materials for Information Technology (Editors. E. Zschech, C. Whelan, T. Mikolajick), Springer-Verlag, 2005, p197.
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