教育背景
2013.09-2016.07 复旦大学 化学系 物理化学专业 博士
2011.09-2013.07 哈尔滨工业大学 理学院 化学工程与技术专业 硕士
2007.09-2011.07 哈尔滨工业大学 化工学院 化学工程与工艺专业 学士
工作履历
2019.08-至今 中山大学 副教授
2017.08-2019.07 美国内华达州立大学(拉斯维加斯) 博士后
2016.07-2017.07 北京高压科学研究中心(上海) 博士后
主讲课程
《计算材料学》
科研工作
【研究领域】
计算模拟,碳材料相变模拟,二维磁性材料,势能面搜索
【学术表现】
相变作为物质科学领域的基础共性问题,迫切需要融合多学科知识和技术手段,从原子水平到多尺度层次揭示结构相变的动力学机制。通过多学科协同与技术创新,实现了对高压条件下相变过程的模拟和关键机理解释。普遍的相变研究聚焦于从热力学角度考虑结构转变和化学反应,回答了相变会不会发生的问题,却忽视了结构转变是如何进行的,即相变动力学过程。本人长期致力于固-固相变动力学,旨在通过揭示物质结构演变过程的转变机制,解决地学、材料、物理、化学等多学科的关键科学问题。获得了一系列具有原创性的成果:利用相变构建具有完美相界面的二氧化钛材料提升光催化剂的催化性能,利用相变机理解释地幔含水矿物的失氢机制,利用百万原子的分子动力学模拟石墨在高温高压条件下相变成金刚石的机理提出金刚石的微结构依赖于石墨的各向异性,通过理论模拟提出六方金刚石形成的关键条件,指导实验成功获得大块体六方金刚石。通过相变机理的研究,对一些重要材料的相变,给出清晰的原子图像,提高了我们对相变的认识水平。目前,以第一作者或通讯作者发表36篇,含Nature Materials 1篇, J. Am. Chem. Soc. 4篇, JACS Au 1篇, Matter 1篇, Sci. Adv. 1篇, Nature Commun. 1篇, Adv. Mater. 2篇, Natl. Sci. Rev. 1篇, Sci. Bull. 1篇, ACS Mater. Lett. 1篇。
【学术论文】
代表性论文如下:
1. Nat. Mater,2025,24,513-518.(共同通讯)
2. J. Am. Chem. Soc., 2025, 147, 2158−2167. (共一第一&共同通讯)
3. J. Am. Chem. Soc., 2022, 144, 7414−7421. (共一第一&共同通讯)
4. Sci. Adv., 2023, 9, eadh3784. (共同通讯)
5. Matter, 2020, 3, 864-878. (共一第一)
6. J. Am. Chem. Soc., 2017, 139(35): 12129-12132. (唯一第一)
7. J. Am. Chem. Soc., 2015, 137(35), 11532-11539. (唯一第一)
8. JACS Au, 2024, 4, 3413−3420. (共同通讯)
9. Nature Commun., 2023, 14, 6125. (共同通讯)
10. Adv. Mater., 2025, 2500037. (共同通讯)
11. Adv. Mater., 2025, 2417597. (共同第一)
12. Natl. Sci. Rev., 2025, nwae430. (共同第一)
13. Sci. Bull., 2025, 70, 1257–1263.(共同通讯)
14. ACS Mater. Lett., 2024, 6, 3690−3696. (唯一第一&共同通讯)
15. J. Phys. Chem. Lett., 2014, 5, 5(18), 3162-3168. (唯一第一)
发表文章:
Full publications (#Co-first author; *Corresponding author):
2025
1. Zhu Sheng-Cai#*, Chen Gu-Wen#, Yuan Xiao-Hong#, Cheng Yong, Wan Ming-Hao, Xu Baoyin, Wang Ming-sheng, Tang Hu*, Hou Yanglong*, Key for Hexagonal Diamond Formation: Theoretical and Experimental Study, J. Am. Chem. Soc., 2025, 147, 2158−2167.
2. Xiaohong Yuan#, Guwen Chen#, Yong Cheng, Shengcai Zhu*, Fuyang Liu, Yue Pan, Ming-Sheng Wang, Zhaodong Liu, Hu Tang*, Bingbing Liu*, Direct Synthesis of Millimeter-Sized Polycrystalline Hexagonal Diamond from Graphite, Sci. Bull., 2025, 70, 1257–1263.
3. Chen Desi#, Chen Guwen#, Shang Yuchen, Dong Jiajun*, Hou Xuyuan, Wang Yan, Wang Saisai, Yin Yankun, Liu Ran, Zhang Wei, Jiang Zhou, Zhu Shengcai*, Bertil, Sundqvist, Liu Bingbing*, Yao Mingguang*, General Approach for Synthesizing Hexagonal Diamond by Heating Post-Graphite Phases, Nature Materials, 2025, https://doi.org/10.1038/s41563-025-02126-9.
4. Zhao Zijing#, Han Xiaocang#, Zhu Shengcai#, Fang Zhi#, Han Ziyi, Liang Zhongyu, Li Bailing, Zhang Biao, Li Wei, Luo Zhaochu, Peng Licong, Zhao Xiaoxu*, Li Xiangguo, Zhou Jiadong, Gao Song, Wang Chengxin, Kläui Mathias, Hou Yanglong*, Structure and property evolution in Fe1+xSe2 upon intercalation ratios, Natl. Sci. Rev., 2025, 12, nwae430.
5. Pan Yue#, Yuan Xiaohong#, Cheng Yong, Xu Baoyin, Liu Shucheng, Wang Zhitong, Wang Shida, Hu Kuo*, Zhu Shengcai*, Li Quanjun, Wang Ming-sheng, Liu Zhaodong, Tang Hu*, Liu Bingbing*, Uniaxiality‐Induced Reduced‐Pressure Synthesis of Ultrahard Paracrystalline Diamond, Adv. Mater., 2025, 2500037.
6. Han Dongxuan#, Peng Di#, Zhu Sheng-Cai#, Wang Xianlong*, Han Songbai, Zhu Jinlong*, Li WeiWei, Wang Liping*, Yu Tao, Zhao Yusheng, Wang Pei*, Concurrent Pressure-Induced Superconductivity and Switching from Positive to Negative Photoconductivity in PbSe0.5Te0.5, Adv. Mater., 2025, 37(7), 2417597.
7. Lv Mingda, Zhu Shengcai*, Liu Jiachao, Hu Yi, Zhu Feng, Lai Xiaojing, Zhang Dongzhou, Chen Bin, Dera Przemyslaw, Li Jie, and Susannah M. Dorfman*, Phase transformation of ferric-iron-rich silicate in Earth’s mid-mantle, American Mineralogist, 2025, 110 (3), 414-421.
8. Zhuang Yukai, Liu Jin*, Chaojia Lv, Xu Liangxu, Bi Wenli, Hu Qingyang, Zhang Dongzhou, Garbarino Gaston, Zhu Shengcai*, Zhang Youjun, Magnetic collapse and low conductivity of Fe3N in the interior of Earth-like planets, American Mineralogist, 2025, 110 (4), 506-512.
2024
9. Chen Gu-Wen, Zhu Sheng-Cai*, Xu Liang, Li Yao-Min, Liu Zhi-Pan*, Hou Yanglong*, and Mao Ho-kwang, The Transformation Mechanism of Graphite to Hexagonal Diamond Under Shock Condition, JACS Au, 2024, 4, 3413−3420.
10. Yu Tao, Zhu Sheng-Cai*, Hou Yanglong*, A novel sp3 Carbon Allotrope with 4+5+6+7+8 odd-even ring, Phys. Chem. Chem. Phys., 2024, 26, 22182.
11. Zhu Sheng-Cai*; Chen Zi-Yan; Liu Zhi-Pan*; Hou Yanglong*, Thermodynamics and Catalytic Activity of the Reduced Cu on Cu2O Surface from Machine Learning Atomic Simulation, ACS Materials Letters, 2024, 6, 3690−3696.
12. Ma Hong, Chen Guwen, Tai Zhongfu, Zeng Yuan, Zhu Shengcai*, Liu Xiaolong*, New insight on the sources of p-type conductivity in SnO, Solid State Communications, 2024, 389, 115588.
13. Wei Shi-Chen, Chen Gu-Wen, Xu Liang*, Zhu Sheng-Cai*, and Hou Yanglong, 3D twin formation mechanism from onion carbon, J. Phys. Chem. C, 2024, 128, 18, 7652–7660.
14. Cao Xuyan, Han Songsong, Li Junwei, Zhu Sheng‐Cai, Hu Qingyang*, Kinetic and Thermodynamic Transition Pathways of Silica by Machine Learning: Implication for Meteorite Impacts, Journal of Geophysical Research: Solid Earth, 2024, 129, e2024JB028656.
15. Liu Yuegao#, Cai Chao#, Zhu Sheng-cai#, Zheng Zhi#, Li Guowu, Chen Haiyan, Li Chao, Sun Haiyan, Chou I-Ming, Yu Yanan, Mei Shenghua*, Wang Liping*, Enhanced Hydrogen Evolution Catalysis of Pentlandite due to the Increases in Coordination Number and Sulfur Vacancy during Cubic-Hexagonal Phase Transition, Small, 2024, 2311161.
2023
16. Chen Tian, Xie Jiangsheng*, Wen Bin, Yin Qixin, Lin Ruohao, Zhu Sheng-cai*, Gao Pingqi*, Inhibition of defect-induced α-to-δ phase transition for efficient and stable formamidinium perovskite solar cells, Nature Commun., 2023, 14, 6125.
17. Li Junwei, Lin Yanhao, Thomas Meier, Liu Zhipan, Yang Wei, Mao Ho-kwang, Zhu Sheng-cai*, Hu Qingyang*; Silica-water superstructure and one-dimensional superionic conduit in Earth’s mantle; Sci. Adv., 2023, 9, eadh3784.
18. 陈顾文,徐亮*,朱升财*,石墨到纳米多晶金刚石相变的分子动力学研究, 高压物理学报, 2023, 37(4):041101。Chen Guwen, Xu Liang*, Zhu Shengcai*. Phase Transition Mechanism of Graphite to Nano-Polycrystalline Diamond Resolved by Molecular Dynamics Simulation. Chinese Journal of High Pressure Physics, 2023, 37(4):041101.
19. Chen Gu-wen#, Wen Bin#, Xie Jiang-Sheng, Chen Li-Kai, Zhu Sheng-Cai*; Resolving the Perovskite Degradation Mechanism by Machine Learning Potential: The Case of CsPbI3, J. Phys. Chem. C, 2023, 127, 24, 11692–11699.
20. Yang Jun, Cao Yifan, Zhang Shuyu, Shi Qingwen, Chen Siyu, Zhu Sheng-cai, Li Yunsong, Huang Jianfeng; Interstitial Hydrogen Atom to Boost Intrinsic Catalytic Activity of Tungsten Oxide for Hydrogen Evolution Reaction, Small, 2023, 2207295.
21. Xie Jiangsheng, Zhao Shenghe, Hang Pengjie, Chen Tian, Wen Bin, Yin Qixin, Wei Shichen, Zhu Shengcai, Yu Xuegong, Qin Minchao, Lu Xinhui, Yan Keyou, Xu Jianbin, Gao Pingqi, Reconstructing the amorphous and defective surface for efficient and stable perovskite solar cells, Science China Materials, 2023, 66, 1323-1331.
2022
22. Zhu Sheng-cai#*; Chen Gu-wen#; Zhang Dongzhou; Xu Liang; Liu Zhi-Pan; Mao Ho-kwang; Hu Qingyang*; Topological ordering of memory glass in extended length scales, J. Am. Chem. Soc., 2022, 144, 7414−7421.
23. Chen Zi-Yan#, Chen Gu-wen#, Zhu Sheng-cai*, Phase-Transition Mechanism and the Atomic Interface Structure of Brookite to Rutile: Resolving from Machine-Learning Global Pathway Sampling, J. Phys. Chem. C, 2022, 126, 28, 11846–11854.
24. Zhu Sheng-cai#*; Huang Zhen-bo#; Hu Qingyang; Xu Liang; Pressure tuned incommensurability and guest structure transition in compressed scandium from machine learning atomic simulation, Phys. Chem. Chem. Phys., 2022, 24, 7007.
25. Zhai Jingru, Lei Zhengyu, Sun Kening*, Zhu Sheng-cai*, MXene enabled binder-free FeOF cathode with high volumetric and gravimetric capacities for flexible lithium ion batteries, Electrochimica Acta, 2022, 423, 140595.
26. Pei Wang#*; Zhu Sheng-cai#; Zou Yongtao#; Chen Haiyan; Liu Ying; Weiwei Li; Chen Jian; Zhu Jinlong; Wu Liusuo; Wang Shanmin; Yang Wenge; Xiao Yuming; Chow Paul; Wang Liping*; Zhao Yusheng*; Concurrent Pressure-Induced Spin-State Transitions and Jahn-Teller Distortions in MnTe, Chem. Mater. 2022, 34, 3931−3940.
27. Zuo Sijin; Zhu Sheng-cai; Wang Jiaying; Liu Weiping; Wang Juan*; Boosting Fenton-like reaction efficiency by co-construction of the adsorption and reactive sites on N/O co-doped carbon. Applied Catalysis B: Environmental, 2022, 301, 120783.
28. Yuan Shuhua; Wang Luhong*; Zhu Sheng-cai; Liu Fuyang; Zhang Dongzhou; Vitali B. Prakapenk; Sergey Tkacheve; Liu Haozhe*; Negative linear compressibility in Se at ultra-high pressure above 120 GPa, IUCrJ, 2022, 9, 253–260.
29. Mo Xiaofeng; Liu Xueming; Chen Jianxin; Zhu Sheng-cai; Xu Wenbin; Tan Kan; Wang Qingwei; Lin Zhang; Weizhen Liu; Separation of lattice-incorporated Cr(VI) from calcium carbonate by converting microcrystals into nanocrystals via the carbonation pathway based on the density functional theory study of incorporation energy, Environmental Science Nano, 2022, 9, 1617.
2021
30. Zhu Sheng-cai*; Hu Qing-yang; Unraveling the structural transition mechanism of room-temperature compressed graphite carbon, Phys. Chem. Chem. Phys., 2021, 23, 20560.
31. Shu Zhou#*; Zhu Sheng-cai#; Guan Jiuhui; Wang Rong; Zheng Wei; Gao Pingqi*; Lu Xinhui*; Confronting the Air Instability of Cesium Tin Halide Perovskites by Metal Ion Incorporation, J. Phys. Chem. Lett. 2021, 12, 10996−11004.
32. Yan Xiaozhi#; Ren Xiangting#; Zhu Sheng-cai; Derrick Van Gennep; Wang Liping; Zhao Yusheng; Wang Shanmin; Strain-driven structural selection and amorphization during first-order phase transitions in nanocrystalline Ho2O3 under pressure, Phy. Rev. B, 2021, 103(14), L140103
2020
33. Zhu Sheng-cai#; Yan Xiao-zhi#; Liu Jin#; Artem R. Oganov; Zhu Qiang*; A Revisited Mechanism of The Graphite to Diamond Transition at High Temperature, Matter, 2020, 3, 864-878.
34. Zhuang Yukai#; Wu Lei#; Gao Bo; Cui Zhongxun; Gou Huiyang; Zhang Dongzhou; Zhu Sheng-cai*; Hu Qingyang*; Deviatoric stress induced quasi-reconstructive phase transition in ZnTe, J. Mater. Chem. C, 2020, 8, 3795-3799.
Publications During Postdoc, Ph.D and Master:
35. Zhu Sheng-cai; Hu Qingyang*; Mao Wendy L.; Mao Ho-kwang; Sheng, Hongwei; Hydrogen-bond symmetrization breakdown and dehydrogenation mechanism of FeO2H at high pressure, J. Am. Chem. Soc., 2017, 139(35): 12129-12132.
36. Zhu Sheng-cai; Xie Song-Hai; Liu Zhi-Pan* Nature of Rutile Nuclei in Anatase-to-Rutile Phase Transition. J. Am. Chem. Soc., 2015, 137(35), 11532-11539.
37. Zhu Sheng-cai; Xie Song-Hai*; Liu Zhi-Pan*; Design and Observation of Biphase TiO2 Crystal with Perfect Junction. J. Phys. Chem. Lett., 2014, 5, 5(18), 3162-3168.
38. Zhu Sheng-cai#; Liu Jin#; Hu Qingyang*; Mao Wendy L.; Meng Yue; Zhang Dongzhou; Mao Ho-kwang; Zhu Qiang*; Structure controlled oxygen concentration in Fe2O3 and FeO2, Inorg. Chem., 2019, 58, 9, 5476-5482.
39. Zhu Sheng-cai#; Wang Lei#; Qu Jing-yu; Wang Junjie; Frolov Timofey; Chen Xin-qiu; Zhu Qiang*; Computational Design of Flexible Electrides with Non-trivial Band Topology, Phy. Rev. Mater. 2019, 3, 024205-15.
40. Zhu Sheng-cai; Yan Xiao-zhi; Scott Fredericks; Li Yan-ling*; Zhu Qiang*; First-principles investigation of Sc-III/IV under High Pressure, Phy. Rev. B, 2018, 98, 214116.
41. Zhu Sheng-cai; Guan Shu-Hui; Liu Zhi-Pan* Mechanism and Microstructures in Ga2O3 Pseudomartensitic Solid Phase, Phys. Chem. Chem. Phys., 2016, 18, 18563.
42. Zhu Sheng-cai; Guan Shu-Hui; Zhao Wei-Na; Liu Zhi-Pan*; Atomic Structure of Heterophase Junction from Theoretical Prediction, Top. Catal., 2015, 58, 644.
43. Zhu Sheng-cai; Fu Ling; Fabricating rutile nanopins on an anatase hollow sphere structure with enhanced photoactivity performance. RSC Advances., 2017, 89, 56648.
44. Lu Yang#; Zhu Sheng-cai#; Huang Eugene; He Yu; Ruan Jiaji; Yan Hao; Indirect-Direct Band-Gap Modulation in Ductile Semiconductor Ag3PO4 via Pressure-Induced Phase Transitions, J. Mater. Chem. A, 2019, 7, 4451-4458.
45. Tang Manjing; Yang Jun*; Chen Nantao; Zhu Sheng-cai*; Wang Xing; Wang Tian; Zhang Cong-cong; Xia Yongyao*; Modification on overall structure of layered Ni-rich cathode for enhanced electrochemical performance at high voltage, J. Mater. Chem. A, 2019, 7, 6080-6089.
46. Li Ye-Fei*; Zhu Sheng-cai; Liu Zhi-Pan* Reaction Network of Layer-to-tunnel Transition of MnO2, J. Am. Chem. Soc., 2016, 138, 5371.
47.Wang Lei; Zhu Sheng-cai; Shen Meikun; Tian Haiwen; Xie Songhai; Zhang Hongbin; Zhang Yahong; Tang Yi*; Fractal Crystals: Hunting the Hidden Dimension in Nanoporous Materials. Angewandte Chemie, 2017, 56, 11764 -11768.
48. Zhao Wei-Na; Zhu Sheng-cai; Li Ye-Fei, Liu Zhi-Pan* Three-phase Junction for Modulating Electron-Hole Migration in Anatase/Rutile Photocatalysts, Chem. Sci., 2015, 6, 3483.
49. Le Shi-Ru; Zhu Sheng-cai; Zhu Xiao-Dong; Sun Ke-Ning*; Densification of Sm0.2Ce0.8O1.9 with the Addition of Lithium Oxide as Sintering Aid, J. Power Sources, 2013, 222, 367.
50. Qu Jinyu; Zhu Sheng-cai; Zhang Weiwei*; Zhu Qiang*; Electrides with Dinitrogen Ligands, ACS Appl. Mater. Inter. 2019, 11, 5, 5256-5263.
51. Tan Melissa; Alexander G. Shtukenberg; Zhu Sheng-cai; Xu Wenqian; Eric Dooryhee; Shane M. Nichols; Michael D.Ward; Bart Kahr*; Zhu Qiang; ROY revisited, again: the eighth solved structure, Faraday Discuss., 2018, 211, 477
52. Cheng Zhongjun; Lai Hua; Du Ming; Zhu Sheng-cai; Zhang Naiqing; Sun Kening; Super-hydrophobic surface with switchable adhesion responsive to both temperature and pH, Soft Matter, 2012, 8, 9635.
53. Zhou Xiaoliang; Liu Limin; Zhen Jiangman; Zhu Sheng-cai; Li Baowen; Sun Kening*; Wang Peng; Ionic conductivity, sintering and thermal expansion behaviors of mixed ion conductor BaZr0.1Ce0.7Y0.1Yb0.1O3−δ prepared by ethylene diamine tetraacetic acid assisted glycine nitrate process, J. Power Sources, 2011, 196, 5000-5006.
【发明专利】
1. 朱升财,陈顾文,邓溥,中国专利《一种六方金刚石及其制备方法》,受理号:202310971789.4。
2. 朱升财,万明昊,侯瑞,陈顾文,余涛,中国专利《一种六方金刚石及其制备方法》,受理号:202311494825.9。
3. 朱升财,林蓉,余涛,中国专利《一种化学气相沉积同质外延生长六方金刚石的方法》,受理号:202510071051.1。
【学术报告】
1. 2021年4月12日,珠海,中国化学会第32届学术年会,口头报告《高压下石墨到金刚石的相变机理》。
2. 2023年5月11日,大连,第二十一届中国高压科学学术会议,邀请报告《石墨在高压下的相变选择性》。
3. 2023年6月27日,吉林大学,极端条件物质科学论坛,邀请报告《石墨在高温高压下的相变过程研究》
4. 2023年6月5日,珠海,the 6th International Conference on Matter and Radiation at Extremes (ICMRE2023), Invited presentation (邀请报告) 《Silica-water superstructure and one- dimensional superionic conduit in Earth’s mantle》
5. 2023年11月5日,深圳,THE 15th PACIFIC RIM CONFERENCE OF CERAMIC SOCIETIES (PACRIM15),Invited presentation (邀请报告),《Topological Ordering of Memory Glass in Extended Length Scales》 6. 2024年1月15日,上海,北京高压科学研究中心,邀请报告《From machine learning to materials simulation》
6. 2024年1月14日,浙江宁波,CarbonTech 青年会议,口头报告《六方金刚石的形成机制研究》,获“最佳口头报告”奖。
7. 2024年1月15日,上海,北京高压科学研究中心,邀请报告《From machine learning to materials simulation》。
8. 2024年4月14日,成都,原子分子、高压科学、物理力学及相关学科学术研讨会,邀请报告《六方金刚石的形成机制的理论研究》。
9. 2024年4月23日,合肥,中科科学技术大学,邀请报告《碳材料在复杂条件下的相变机理的理论研究》。
10. 2024年5月7日,秦皇岛,燕山大学,邀请报告《碳材料在复杂条件下的相变机理》。
11. 2024年6月17日,广州,中国化学会第34届学术年会,邀请报告《石墨到六方金刚石的分子动力学研究》。
12. 2024年7月4日,合肥,中科院固体所,邀请报告《碳材料在复杂条件下的相变机理的分子动力学研究》。
13. 2024年8月8日,长春,中国化学会第十五届全国理论与计算化学会,口头报告《六方金刚石的形成机制研究》。
14. 2024年8月19日,吉林大学,第16届中国金刚石相关材料及应用学术研讨会,邀请报告《六方金刚石的形成机制研究》。
15. 2024年12月20日,上海,基金委B03,第四届化学理论与机制青年学者学术交流研讨会,口头报告,《势能面搜索与相变模拟》。
16. 2025年3月16日,北京,中国化学会第四届全国高压化学会,邀请报告,《六方金刚石的合成关键》。
17. 2025年4月13日,郑州,中国晶体学会第⼆届陶瓷青年学术会议,邀请报告,《金刚石超硬材料的理论设计》。
18. 2025年4月19日,厦门,极端条件材料与器件2025年学术会议,口头报告,《金刚石超硬材料的理论设计》。 “高水平口头报告”奖。
19. 2025年5月9日,成都,中国化学会第一届全国表界面科学会议,邀请报告,《相变中的界面问题》。
【科研项目】
1. 国家重点研发计划,2024YFF0506201,《太阳能驱动生物质转化制备化学品的理论和方法》,2025-01 至 2029-12,在研,骨干成员。
2. 国家自然科学基金委员会, 青年科学基金项目, 21703004, 《碳在高压下势能面的理论研究》, 2018-01- 01 至 2020-12-31, 24万元, 结题, 主持。
3. 国家自然科学基金委员会, 面上项目, 12274383, 高温高压下熔体铈奇异特性的微观机制研究, 2023- 01-01 至 2026-12-31, 参与
4. 广东省科技厅,面上项目,《六方金刚石的相变机理与静高压合成技术研究》, 2025-01 至 2027-12, 在研, 主持。
5. 中央高校基本科研业务费青年教师培育项目,23qnpy04,《势能面搜索与相变模拟》,2023-01至2023-12,5万,结题,主持。
6. 吉林大学超硬材料国家重点实验室, 国家重点实验室开放课题, 202403, 《六方金刚石的静高压合成技术与相变机理研究》, 2024-01 至 2025-12, 5万元, 在研, 主持。
7. 燕山大学亚稳材料制备技术与科学国家重点实验室, 国家重点实验室开放课题, 202507, 金刚石中的微结构形成机制与其性能研究 , 2025-01 至 2026-12, 3万元, 在研, 主持
8. 上海师范大学资源化学教育部重点实验室,教育部重点实验室开放课题, KLRC_ME2502, 六方金刚石化学气相沉积同质外延生长机制与高质量合成探索, 2025-01 至 2026-12, 在研, 主持
奖励与荣誉
复旦大学优秀毕业生(2016)
博士生国家奖学金(2015)
深圳市海外高层次人才C类(2020)
毕业学生
2021: (本科生)陈顾文(优秀毕业生,优秀毕业论文,发表JACS 1篇)、陈立楷、马浩源、陈抑扬、赵子硕;(硕士生)黄震铂(发表PCCP 1篇)。
2022: (本科生)朱皞宸、陈力滔、关振卓;(硕士生)陈孜妍(发表JPCC 1篇,ACS ML 1篇)。
2024: (本科生)万明昊(中国专利1项);(硕士生)陈顾文(以第一作者(含共一)发表JACS Au 1篇,JACS 1篇,Nature Materials 1篇,Sci. Bull. 1篇,JPCC 2篇,高压物理学报1篇,获得优秀研究生毕业生,国家奖学金,小米特等奖学金)
目前课题组成员
邓溥,赵英亮,侯瑞,余涛,万明昊,林蓉
学生/博后需求
有兴趣的学生或研究人员,请联系本人:zhushc@mail.sysu.edu.cn