 | 姓 名: | 林岳 |
地 址: | 中国科学技术大学 中区理化中心503室 | |
电 话: | 0551-63607564(O)/63603476(L) | |
电子邮件: | linyue@ustc.edu.cn | |
主 页: | https://faculty.ustc.edu.cn/linyue/ |
| 教育与科研经历 |
| 林岳,特任教授,博士生导师,国家优秀青年基金获得者。2020-2025年连续6次入选科睿唯安“全球高被引科学家”、 2025年担任中国电镜学会首届青年学者专家委员会委员,获2024年度高校分析测试优秀青年人才支撑计划(一等项目),获2020年中国科学院青年创新促进会人才支持计划。作为通讯作者在Science、Nature、PNAS、Sci. Adv.、Nat. Commun.、Adv. Mater.、Angew. Chem. Int. Ed.等高水平期刊发表六十余篇论文,他引三万余次。担任Carbon Energy、Green Energy & Environment与Nano-Micro Letter期刊青年编委。2007年获兰州大学物理学学士学位,2012年获中国科学技术大学凝聚态物理博士学位。主持国家自然科学基金委优青、面上及青年项目、中国科学院大科学中心协同创新项目等。现于中国科学技术大学微尺度物质科学国家研究中心理化中心工作,负责球差电镜的相关测试与研究工作,致力于发展透射电镜相关技术,进行能源催化材料的球差与原位电镜研究,揭示新型能源催化材料的生长机理和储能机理,以理解材料的微观结构与性能之间的关联。 |
| 主要研究方向 |
| 本课题组针对能源与环境危机,重点依托并发展球差/原位电镜这一先进表征手段,研究新型能源材料的生长与催化、储能机理,揭示新型能源材料的物性起源,从而推动新型能源材料的实际应用,主要研究方向包括: | |
1. | 多相催化的原位电镜研究; |
2. | 能量转换与存储原位研究; |
3. | 先进透射电镜技术的发展。 |
| 代表性论文 |
1. | Y.-H. Song, B. Li, Z.-J. Wang, X.-L. Tai, G.-J. Ding, Z.-D. Li, H. Xu, J.-M. Hao, K.-H. Song, L.-Z. Feng, Y.-L. Hu, Y.-C. Yin, B.-S. Zhu, G. Zhang, H. Ju, G. Zheng*, W. Hu*, Y. Lin*, F. Fan*, H.-B. Yao*, Intragrain 3D perovskite heterostructure for high-performance pure-red perovskite LEDs, Nature, 641 (2025) 352-357. |
2. | C.-L. Yang, L.-N. Wang, P. Yin, J. Liu, M.-X. Chen, Q.-Q. Yan, Z.-S. Wang, S.-L. Xu, S.-Q. Chu, C. Cui, H. Ju, J. Zhu, Y. Lin*, J. Shui*, H.-W. Liang*, Sulfur-anchoring synthesis of platinum intermetallic nanoparticle catalysts for fuel cells, Science, 374 (2021) 459-464. |
3. | Xiaolin Tai, Yanan Zhou, Shilong Xu, Liuxin Xu, Hui Ding, Yan Xu, Renjie Gui, Xiao Han*, Mingming Ma, Changzheng Wu*, and Yue Lin*, Atomic diffusion pathway mediated subsurface engineering, Nat. Commun., (2026)17 (1), 593 |
4. | Xiao Han, Shuwen Niu, Geng Wu, Xiaolin Tai, Haohui Hu, Fanfei Sun, Haiwei Liang, Xun Hong*, and Yue Lin*, Single-Atom-Layer-Induced Reversed Diffusion Pathway of Reactive Metal–Support Interaction, JACS., (2025)147 (49), 44825-44833. |
5. | X. Han, Y. Zhou, X. Tai, G. Wu, C. Chen, X. Hong, L. Tong*, F. Xu*, H.-W. Liang, Y. Lin*, In-situ atomic tracking of intermetallic compound formation during thermal annealing, Nat. Commun., (2024), 15, 7200. |
6. | Y. Wang, C. Li, X. Han, J. Bai, X. Wang, L. Zheng, C. Hong, Z. Li, J. Bai, K. Leng*, Y. Lin*, Y. Qu*. General negative pressure annealing approach for creating ultra-high-loading single atom catalyst libraries, Nat. Commun., (2024), 15, 5675. |
7. | Z. Luo, X. Han, Z. Ma, B. Zhang, X. Zheng, Y. Liu, M. Gao, G. Zhang*, Y. Lin*, H. Pan, W. Sun*. Unraveling the Unique Strong Metal-Support Interaction in Titanium Dioxide Supported Platinum Clusters for the Hydrogen Evolution Reaction, Angew. Chem. Int. Ed., 63 (2024), e202406728. |
8. | L. Tian, X. Gao, S. Wang, C. Chen, M. Chen, W. Guo, Z. Wang, X. Tai, X. Han, C. Xu, Y. Ruan, M. Zhu, C. Xiong, T. Yao, H. Zhou*, Y. Lin*, Y. Wu*, Precise arrangement of metal atoms at the interface by a thermal printing strategy, PNAS, (2023), 120, 52. |
9. | X. Han, G. Wu, Y. Ge, S. Yang, D. Rao, Z. Guo, Y. Zhang, M. Yan, H. Zhang, L. Gu, Y. Wu, Y. Lin*, H. Zhang*, X. Hong*, In situ Observation of Structural Evolution and Phase Engineering of Amorphous Materials during Crystal Nucleation, Adv. Mater., (2022) , 34, 2206994. |
10. | P. Yin, S. Hu, K. Qian, Z. Wei, L.-L. Zhang, Y. Lin*, W. Huang, H. Xiong, W.-X. Li*, H.-W. Liang*, Quantification of critical particle distance for mitigating catalyst sintering, Nat. Commun., 12 (2021) 4865. |
11. | Y. Lin*, M. Zhou, X. Tai, H. Li, X. Han, J. Yu, Analytical transmission electron microscopy for emerging advanced materials, Matter, 4 (2021) 2309-2339. |
12. | Z. Sun, Y. Liu, W. Ye, J. Zhang, Y. Wang, Y. Lin*, L. Hou, M.-S. Wang*, C. Yuan*, Unveiling Intrinsic Potassium Storage Behaviors of Hierarchical Nano Bi@N-Doped Carbon Nanocages Framework via In Situ Characterizations, Angew. Chem. Int. Ed., 60 (2021) 7180-7187. |
13. | Y. Chu, L. Guo, B. Xi, Z. Feng, F. Wu, Y. Lin*, J. Liu, D. Sun, J. Feng, Y. Qian, S. Xiong*, Embedding MnO@Mn3O4 Nanoparticles in an N-Doped-Carbon Framework Derived from Mn-Organic Clusters for Efficient Lithium Storage, Adv. Mater., 30 (2018) 1704244. |
