朱航天
简介:
2006-2012年北京科技大学与物理所联合培养,指导老师杜振民,梁敬魁院士、骆军;
2012-2014年于物理所从事博士后工作,合作老师梁敬魁院士、骆军;
2015-2019年于休斯顿大学从事新型热电材料探索工作,合作导师任志锋;
2019-2020年于宾州州立大学从事热电器件研发,合作导师Shashank Priya、Bed Poudel;
2020年起回国工作,入选物理所引进海外杰出人才计划,副研究员,博士生导师。
主要研究方向:
热电材料研发与器件构筑
过去的主要工作及获得的成果:
1. 发现了ZrCoBi、TaFeSb、AgCuTe等一系列新型高性能half-Heusler合金。
2. 自主研发了碲化铋热挤压制备系统,解决了高功率热电制冷器件的卡脖子问题,并推动相关技术产业化落地。
3. 开发Mg3(Bi,Sb)2、MgAgSb镁基新器件,有潜力成为取代碲化铋的下一代热电主流器件。
代表性论文及专利:
论文引用超5000次,H指数36。ORCID ID: 0000-0001-9324-1206
1. Zhang, X.F.; Zhu, H.T.*; Dong, X.; Fan, Z.; Yao, Y.; Chen, N.; Yang, J.; Guo, K.; Hao, J.; He, L.; et al. High-performance MgAgSb/Mg3(Sb,Bi)2-based thermoelectrics with η = 12% at T ≤ 583K. Joule 2024, 8, 1.
2. Zhang, X.F.; Chen, N.; Guo, K.W.; Zhang, Q.T.; Zhao, Q.; Xu, J.K.; Zhu, H.T.*; Zhao, H.Z.*. High cooling and power generation performance of α-MgAgSb with intrinsic low lattice thermal conductivity. Mater. Today Phys. 2024, 44, 101451.
3. Chen, N; Zhu, H.T.*; Li, G.D.; Fan, Z; Zhang, X.F.; Yang, J.W.; Lu, T.B.; Liu, Q.L.; Wu, X.W.; Yao, Y; Shi Y.G.; Zhao H.Z.*. Improved figure of merit (z) at low temperatures for superior thermoelectric cooling in Mg3(Bi,Sb)2. Nat. Commun. 2023, 14(1), 4932.
4. Zhu, H.T.*; Li, W.J.*; Nozariasbmarz, A.; Liu, N.; Zhang, Y.; Priya, S.*; Poudel, B.*. Half-Heusler alloys as emerging high power density thermoelectric cooling materials. Nat. Commun. 2023, 14(1), 3300.
5. Lu, T.B.; Wang, B.Y.; Li, G.D.; Yang, J.W.; Zhang, X.F.; Chen, N.; Liu, Te-Huan; Yang, R.G.; Niu, P.J.*; Kan, Z.X.; Zhu, H.T.*; Zhao, H.Z.*.Synergistically enhanced thermoelectric and mechanical performance of Bi2Te3 via industrial scalable hot extrusion method for cooling and power generation applications. Mater. Today Phys. 2023, 32, 101035
6. Yang, J.; Li, G. D.; Zhu, H. T. *; Chen, N.; Lu, T. B.; Gao, J. L.; Guo, L. W.; Xiang, J. S.; Sun, P. J.; Yao, Y.; Yang, R. G.; Zhao, H. Z.*, Next-generation thermoelectric cooling modules based on high-performance Mg3(Bi,Sb)2 material, Joule 2022, 6, 193-204. (Time cited: 121)
7. Zhu, H.T.; Mao, J.; Li, Y.W.; Sun, J.F.; Wang, Y.M.; Zhu, Q.; Li, G.N.; Song, Q.C.; Zhou, J.W.; Fu, Y.H.; He, R.; Tong, T.; Liu, Z.H.; Ren, W.Y.; You, L.; Wang, Z.M.; Luo, J.; Sotnikov, A.; Bao, J. M.; Nielsch, K.; Chen, G.; Singh, D. J.*; Ren Z.F. *, Discovery of TaFeSb-based half-Heuslers with high thermoelectric performance, Nat. Commun. 2019, 10, 270. (Time cited: 337)
8. Mao, J.; Zhu, H.T.; Ding, Z.W.; Liu, Z.H.; Gamage, G.A.; Chen, G.*; Ren Z.F.*, High thermoelectric cooling performance of n-type Mg3Bi2-based materials, Science 2019, 365, 495-498. (Time cited: 581)
9. Zhu, H.T.; Mao, J.; Feng, Z.Z.; Su, J.F.; Zhu, Q.; Liu, Z.H.; Singh, D.J.*; Wang, Y.M.*; Ren, Z.F.*, Understanding the asymmetrical thermoelectric performance for discovering promising thermoelectric materials, Sci. Adv. 2019, 5, eaav5813.
10. Zhu, H.T.; He, R.; Mao, J.; Zhu, Q.; Li, C.H.; Sun, J.F.; Ren, W.Y.; Wang, Y.M.; Liu, Z.H.; Tang, Z.J.; Sotnikov, A.; Wang, Z.M.; Broido, D.; Singh, D.J.; Chen, G.; Nielsch, K.; Ren, Z.F.*, Discovery of ZrCoBi based half Heuslers with high thermoelectric conversion efficiency, Nat. Commun. 2018, 9, 2497. (Time cited: 321)
11. Jiang, J.; Zhu, H. T. (Equal Contributor); Niu, Y.; Zhu, Q.; Song, S. W.; Zhou, T.; Wang, C.*; Ren, Z. F.*, Achieving high room-temperature thermoelectric performance in cubic AgCuTe. J Mater. Chem. A 2020, 8(9), 4790-4799.
12. Ren, W. Y.; Zhu, H. T. (Equal Contributor); Zhu, Q.; Saparamadu, U.; He, R.; Liu, Z. H.; Mao, J.; Wang, C.; Nielsch, K.; Wang, Z. M.*; Ren, Z. F.*, Ultrahigh Power Factor in Thermoelectric System Nb0.95M0.05FeSb (M = Hf, Zr, and Ti). Adv. Sci. 2018, 1800278.
13. He, R.; Zhu, H. T. (Equal Contributor); Sun, J. Y.; Mao, J.; Reith, H.; Chen, S.; Schierning, G.; Nielsch, K.; Ren, Z. F.*, Improved thermoelectric performance of n-type half-Heusler MCo 1-x Ni x Sb (M = Hf, Zr). Mater. Today Phys. 2017, 1, 24-30. (Time cited:186)
14. Li S, Zhu, H. T. (Equal Contributor), Mao J, Feng Z. Z., Li X. F., Chen C, Cao F, Liu X. J., Singh D. J., Ren Z.F.*, Zhang Q.*, n-Type TaCoSn-Based Half-Heuslers as Promising Thermoelectric Materials. ACS Appl. Mater. Interfaces 2019, 11(44): 41321-41329.
15. Zhu, H. T.; Luo, J.*; Zhao, H. Z.; Liang, J. K., Enhanced thermoelectric properties of p-type Ag2Te by Cu substitution. J Mater. Chem. A 2015, 3(19), 10303-10308.
16. Zhu, H. T.; Luo, J.*; Liang, J. K., Synthesis of highly crystalline Bi2Te3 nanotubes and their enhanced thermoelectric properties. J Mater. Chem. A 2014, 2(32), 12821-12826.
17. Zhu, H. T.; Luo, J.*; Zhang, H.; Liang, J. K.; Rao, G. H.; Li, J. B.; Liu, G. Y.; Du, Z. M., Controlled Hydrothermal Synthesis of Tellurium Tri-wing Nanoribbons and their Template Reaction. CrystEngComm 2012, 14 (1), 251-255.
18. Zhu, H. T.; Luo, J.*; Fan, H. M.; Zhang, H.; Liang, J. K.; Rao, G. H.; Li, J.-B.; Liu, G. Y.; Du, Z. M., Tri-wing bismuth telluride nanoribbons with quasi-periodic rough surfaces. J. Mater. Chem. 2011, 21 (33), 12375.
19. Zhu, H. T.; Zhang, H.; Liang, J. K.; Rao, G. H.; Li, J. B.; Liu, G. Y.; Du, Z. M.; Fan, H. M.*; Luo, J.*, Controlled Synthesis of Tellurium Nanostructures from Nanotubes to Nanorods and Nanowires and Their Template Applications. J. Phys. Chem. C 2011, 115 (14), 6375-6380.
20. Zhu, H. T.; Luo, J.*; Yang, H. X.; Liang, J. K.; Rao, G. H.; Li, J. B.; Du, Z. M., Birnessite-type MnO2 Nanowalls and Their Magnetic Properties. J. Phys. Chem. C 2008, 112 (44), 17089-17094. (Time cited: 188)
21. Zhu, H. T.; Luo, J.*; Liang, J. K.; Rao, G. H.; Li, J. B.; Zhang, J. Y.; Du, Z. M., Synthesis and magnetic properties of antiferromagnetic Co3O4 nanoparticles. Physica B-Condensed Matter 2008, 403 (18), 3141-3145.
目前的研究课题及展望:
目前主要专注于从材料、界面、器件构型等角度提高热电制冷的性能极限,期待未来能在高温发电器件的可靠性方面取得一定进展。
主持科研项目:
1. 国家级青年人才项目;
2. 科技部重点研发“基于介观有序重构原理的高性能热电材料”课题一负责人(2022.11-2025.10);
3. 国家自然科学基金面上项目“面向亚毫米尺度温控器件所需的常温热电材料研究及模块构筑”(2022.01-2025.12);
4. 中国科学院物理研究所海外杰出人才项目;
培养研究生情况:
每年计划招收1-2名研究生。
其他联系方式:
zhuhangtian@126.com
Email: