姓名:王东洋 学历:工学博士
职称:副研究员 (直聘研究员) 研究领域:热电材料
所属部门:材料物理教育部重点实验室 E-mail:wangdongyang@zzu.edu.cn
一、工作经历
2024.01 –至今 郑州大学,物理学院,副研究员(直聘研究员)
2022.10 – 2023.12 郑州大学,物理学院,直聘研究员
2020.07 – 2022.09 北京航空航天大学,集成电路科学与工程学院,卓越百人博士后
二、教育背景
2017.09 - 2020.06 北京航空航天大学,材料科学与工程学院,工学博士
2014.09 - 2017.07 河南师范大学,物理学院,理学硕士
2010.09 - 2014.07 河南师范大学,物理学院,理学学士
三、研究方向
1.低热导率材料的设计与合成
2.高性能热电材料的输运机制研究
3.新型热电材料的结构设计和性能优化
四、科研项目
1.国家自然科学基金青年项目,主持,2023.01 – 2025.12
2.中国博士后科学基金“创新人才支持计划”,主持,2020.07 – 2022.06
3.中国博士后科学基金第5批特别资助(站前),主持,2023.08 – 2025.07
4.中国博士后科学基金第74批面上项目,主持,2023.12 – 2025.11
5.郑州大学青年科研人员专项启动基金项目,主持,2023.01 – 2024.12
五、代表性成果(#共同一作,*通讯作者)
1. Liu D.R.,Wang D.Y., Hong T., Wang Z.Y., Wang Y.P., Qin Y.X., Su L.Z., Yang T.Y., Gao X., Ge Z.H., Qin B.C.*, Zhao L.-D.*, Lattice plainification advances highly effective SnSe crystalline thermoelectrics,Science2023, 380 (6647), 841-846.
2. Su L.Z.,Wang D.Y., Wang S.N., Qin B.C., Wang Y.P., Qin Y.X., Jin Y., Chang C.*, Zhao L.-D.*, High thermoelectric performance realized through manipulating layered phonon-electron decoupling,Science2022, 375 (6587), 1385-1389.
3. Qin B.C.,Wang D.Y., Liu X.X., Qin Y.X., Dong J.F., Luo J.F., Li J.W., Liu W., Tan G.J., Tang X.F., Li J.F., He J.Q.*, Zhao L.-D.*, Power generation and thermoelectric cooling enabled by momentum and energy multiband alignments,Science2021, 373 (6554), 556-561.
4. He W.K.,Wang D.Y., Wu H.J, Xiao Y., Zhang Y., He D.S., Feng Y, Hao Y., Dong J., Chetty R., Hao L., Chen D., Qin J., Yang Q., Li X., Song J.M., Zhu Y.C., Xu W., Niu C.L., Li X., Wang G.T., Liu C., Ohta M., Pennycook S.J., He J., Li J.F., Zhao L.-D.*, High thermoelectric performance in low-cost SnS0.91Se0.09crystals.Science2019, 365(6460), 1418-1424.
5. Qin B.C.#, Wang D.Y.#, Hong T.#, Wang Y.P., Liu D.R., Wang Z.Y., Gao X., Ge Z.H., Zhao L.-D.*, High thermoelectric efficiency realized in SnSe crystals via structural modulation,Nat. Commun.2023, 14, 1366.
6. Wang Y.P., Qin B.C., Shi H.N., Su L.Z.,Wang D.Y.*, Zhao L.-D.*, Contrasting thermoelectric properties in cubic SnSe-NaSbSe2and SnSe-NaSbTe2: High performance achieved via increasing cation vacancies and charge densities,Acta Mater., 2023, 247, 118754.
7. Zhan S.P., Hong T., Qin B.C., Zhu Y.C., Feng X., Su L.Z., Shi H.N., Liang H., Zhang Q.F., Xiang X., Ge Z.H., Zheng L.,Wang D.Y.*, Zhao L.-D.*, Realizing high-ranged thermoelectric performance in PbSnS2crystals,Nat. Commun.2022, 13, 5937.
8. Qin B.C.,Wang D.Y.*, Zhao, L.-D.*, Slowing down the heat in thermoelectrics,InfoMat2021, 3(7), 755-789.
9. Zheng J.Q.,Wang D.Y.*, Zhao, L.-D.*, Synergistically enhanced thermoelectric properties in n-type Bi6Cu2Se4O6through inducing resonant levels,Acta Mater.2022, 232, 117930.
10.Wang D.Y.#, Huang Z.W.#, Zhang Y., Hao L.J., Wang G.T., Deng S.H, Wang H.L., Chen J., He L.H., Xiao B., Xu Y.D., Pennycook S.J., Wu H.J.*, Zhao L.-D.*, Extremely low thermal conductivity from bismuth selenohalides with 1D soft crystal structure,Sci. China Mater. 2020, 9, 1759-1768. (封面文章)
11. Liu X.Y.#,Wang D.Y.#, Wu H.J.*, Wang J.F., Zhang Y., Wang G.T., Pennycook S.J., Zhao L.-D.*, Intrinsically low thermal conductivity in BiSbSe3: a promising thermoelectric material with multiple conduction bands.Adv. Funct. Mater.2019, 29, 1806558.
12. Qin B.C.#,Wang D.Y.#, He W.K., Zhang Y., Wu H.J., Pennycook S.J., Zhao L.-D.*, Realizing high thermoelectric performance in p-type SnSe through crystal structure modification.J. Am. Chem. Soc.2019, 141, 1141-1149.