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夏骏
  发布日期:2022-10-28 阅读次数:
姓  名夏骏出生年月1992.11

政治面貌中共党员最高学位博士
职  称资格教授任职年月2022.08
职  务 任职年月 
所在学科力学博导/硕导 
学习与工作经历学习经历:
2015.09-2020.07,中国科学技术大学,近代力学系,固体力学,博士
2011.09-2015.06,南京理工大学,理学院,工程力学,学士
工作经历:
2022.08至今,江苏大学,887700线路检测中心-欢迎您,资格教授
2020.07-2022.07,中国科学技术大学,近代力学系,博士后研究员
学术与社会任职 
研究领域微纳米力学,材料的纳尺度力学行为,低维材料的界面力化学机制
科研项目
  1. 国家自然科学基金委员会,青年科学基金项目,12102422,非共价体系材料的多尺度构效关系及界面力化学机理研究,2022-01至2024-12,30万元,在研,主持

  2. 国家自然科学基金委员会,重点项目,12232016,非共价界面微纳结构材料多尺度力学和强韧化设计,2023-01至2027-12,290万元,在研,参与

  3. 中国科学技术大学青年创新基金,非共价体系材料界面交联的力化学行为及自修复机理研究,2022-01至2022-07,6万元,已结题,主持

  4. 国家自然科学基金委员会,面上项目,12272370,用于主动移除空间碎片的仿生干粘附材料高适应性可控粘脱附研究,2023-01至2026-12,55万元,在研,参与

  5. 国家自然科学基金委员会,面上项目,12172346,纳米纤维素序构材料多尺度力学和强韧化设计,2022-01至2025-12,61万元,在研,参与

  6. 中国科学院战略性先导科技专项(C类)课题,航空轮胎复杂工况下性能仿真二次平台,2019-07至2024-06,715万元,在研,参与

  7. 国家自然科学基金委员会,面上项目,11872063,强非共价键界面石墨烯基仿贝壳材料的力学行为与防腐涂层应用,2019-01至2022-12,65万元,在研,参与

  8. 国家自然科学基金委员会,青年科学基金项目,11802302,石墨烯纳米通道内二维受限水相态行为与限域传质微力学机理,2019-01至2021-12,28万元,已结题,参与

  9. 中国科学院战略性先导科技专项(B类)子课题,纳通道限域传质机理研究,2016-06至2021-05,275万元,已结题,参与

  10. 国防基础科研科学挑战专题,强冲击作用下凝聚介质表界面微力学行为和机理研究,2016-01至2020-12,252万元,已结题,参与

主要论著学术论文:
<#> Contributed equally, <*> Corresponding author
代表性论文:
H.F. Liu#, J. Xia#, N. Zhang, H. Cheng, W.T. Bi, X.L. Zu, W.S. Chu, H.A. Wu, C.Z. Wu*, and Y. Xie. Solid–liquid phase transition induced electrocatalytic switching from hydrogen evolution to highly selective CO2 reduction. Nature Catalysis, 2021, 4(3): 202–211. (IF = 40.706)
Y.Z. Hou#, Q.F. Guan#, J. Xia#, Z.C. Ling, Z.Z. He, Z.M. Han, H.B. Yang, P. Gu, Y.B. Zhu*, S.H. Yu*, and H.A. Wu*. Strengthening and toughening hierarchical nanocellulose via humidity-mediated interface. ACS Nano, 2021, 15(1): 1310–1320. (IF = 18.027)
Y.Z. Hou, J. Xia*, Z.Z. He, Y.B. Zhu, and H.A. Wu*. Molecular levers enable anomalously enhanced strength and toughness of cellulose nanocrystal at cryogenic temperature. Nano Research, 2022. (To be accepted, IF = 10.269)
J. Xia, Y.B. Zhu, X. Jin, and H.A. Wu*. Unravelling the interactions between organic molecules and reduced graphene oxide in an aqueous environment. Carbon, 2020, 167: 345–350. (IF = 11.307)
J. Xia, Y.B. Zhu*, Z.Z. He, F.C. Wang, and H.A. Wu*. Superstrong noncovalent interface between melamine and graphene oxide. ACS Applied Materials & Interfaces, 2019, 11(18): 17068–17078. (IF = 10.383)
其他论文:
H. Cheng#, J. Xia#, M.H. Wang#, C. Wang, R.J. Gui, X.M. Cao, T.P. Zhou, X.S. Zheng, W.S. Chu, H.A. Wu, Y. Xie, and C.Z. Wu*. Surface anion promotes Pt electrocatalysts with high CO tolerance in fuel-cell performance. Journal of the American Chemical Society, 2022. (Under revision. IF = 16.383)
J. Xia, X.Y. Liu, W. Zhou, F.C. Wang, and H.A. Wu*. Transformation between divacancy defects induced by an energy pulse in graphene. Nanotechnology, 2016, 27(27): 274004. (IF = 3.953)
J. Xia, Y.B. Zhu*, F.C. Wang, and H.A. Wu*. Effect of grain boundaries on mechanical transverse wave propagations in graphene. Journal of Applied Physics, 2017, 121(21): 215105. (IF = 2.877)
S. Liu#, H. Cheng#, J. Xia#, C. Wang, R.J. Gui, T.P. Zhou, H.F. Liu, J. Peng, N. Zhang, W.J. Wang, W.S. Chu, H.A. Wu, C.Z. Wu*, and Y. Xie*. Surface microenvironment optimization- induced robust oxygen reduction for neutral zinc-air batteries. Natural Sciences, 2021, 1(2): 210005.
H.K. Zhong, J. Xia, F.C. Wang, H.S. Chen, H.A. Wu, and S.S. Lin*. Graphene‐piezoelectric material heterostructure for harvesting energy from water flow. Advanced Functional Materials, 2017, 27(5): 1604226. (IF = 19.924)
M.M. Yao, Q. Zhang, D. Wang, R.L. Chen, Y.C. Yin, J. Xia, H. Tang, W.P. Xu*, S.H. Yu*. Lead-free halide CsAg2I3 with 1D electronic structure and high stability for ultraviolet photodetector. Advanced Functional Materials, 2022, 32(28): 2202894. (IF = 19.924)
J. Lu#, H.Y. Xu#, H. Yu#, X.Y. Hu#, J. Xia, Y.L. Zhu, F.C. Wang, H.A. Wu*, L. Jiang, and H.T. Wang*. Ultrafast rectifying counter-directional transport of proton and metal ions in metal-organic framework–based nanochannels. Science Advances, 2022, 8(14), eabl5070. (IF = 14.957)
Y.F. Meng#, Y.B. Zhu#, L.C. Zhou, X.S. Meng, Y.L. Yang, R. Zhao, J. Xia, B. Yang, Y.J. Lu, H.A. Wu, L.B. Mao*, and S.H. Yu*. Artificial nacre with high toughness amplification factor: Residual stress-engineering sparks enhanced extrinsic toughening mechanisms. Advanced Materials, 2022, 34(9): 2108267. (IF = 32.086)
H.Y. Xu, H. Yu*, J.C. Fan, J. Xia, H. Liu, and H.A. Wu*. Formation mechanism and structural characteristic of pore-networks in shale kerogen during in-situ conversion process. Energy, 2022, 242: 122992. (IF = 8.857)
宋戎妆, 侯远震, 何泽洲, 夏骏, 朱银波*, 吴恒安. 纳米纤维素序构材料界面力学行为和设计的研究进展. 中国科学技术大学学报, 2021, 51(10): 766–786. 
Y.B. Zhu, Y.C. Wang, B. Wu, Z.Z. He, J. Xia, and H.A. Wu*. Micromechanical landscape of three-dimensional disordered graphene networks. Nano Letters, 2021, 21(19): 8401–8408. (IF = 12.262)
H.L. Gao#, Z.Y. Wang#, C. Cui#, J.Z. Bao, Y.B. Zhu, J. Xia, S.M. Wen, H.A. Wu, and S.H. Yu*. A highly compressible and stretchable carbon spring for smart vibration and magnetism sensors. Advanced Materials, 2021, 33(39): 2102724. (IF = 32.086)
J.C. Li, Y.B. Zhu, J. Xia, J.C. Fan, H.A. Wu*, and F.C. Wang*. Anomalously low friction of confined monolayer water with a quadrilateral structure. The Journal of Chemical Physics, 2021, 154(22): 224508. (IF = 4.304)
H.Y. Xu, H. Yu*, J.C. Fan, J. Xia, F.C. Wang, and H.A. Wu. Enhanced gas recovery in kerogen pyrolytic pore network: Molecular simulations and theoretical analysis. Energy & Fuels, 2021, 35(3): 2253–2267. (IF = 4.654)
H. Yu, H.Y. Xu, J. Xia, J.C. Fan, F.C. Wang, and H.A. Wu*. Nanoconfined transport characteristic of methane in organic shale nanopores: the applicability of the continuous model. Energy & Fuels, 2020, 34(8): 9552–9562. (IF = 4.654)
X.Y. Li#, H.C. Zhang#*, H. Yu#, J. Xia, Y.B. Zhu, H.A. Wu*, J. Hou, J. Lu, R.W. Ou, C.D. Easton, C. Selomulya, M.R. Hill, L. Jiang, and H.T. Wang*. Unidirectional and selective proton transport in artificial heterostructured nanochannels with nano‐to‐subnano confined water clusters. Advanced Materials, 2020, 32(24): 2001777. (IF = 32.086)
H. Yu, J.C. Fan, J. Xia, H. Liu, and H.A. Wu*. Multiscale gas transport behavior in heterogeneous shale matrix consisting of organic and inorganic nanopores. Journal of Natural Gas Science and Engineering, 2020, 75: 103139. (IF = 5.285)
Z.Z. He, Y.B. Zhu*, J. Xia, and H.A. Wu. Optimization design on simultaneously strengthening and toughening graphene-based nacre-like materials through noncovalent interaction. Journal of the Mechanics and Physics of Solids, 2019, 133: 103706. (IF = 5.582)
S.M. Chen#, H.L. Gao#, X.H. Sun#, Z.Y. Ma, T. Ma, J. Xia, Y.B. Zhu, R. Zhao, H.B. Yao, H.A. Wu*, and S.H. Yu*. Superior biomimetic nacreous bulk nanocomposites by a multiscale soft-rigid dual-network interfacial design strategy. Matter, 2019, 1(2): 412–427. (IF = 19.967)
W.B. Wang#, Y.B. Zhu#, Q.L. Wen, Y.T. Wang, J. Xia, C.C. Li, M.W. Chen, Y.W. Liu*, H.Q. Li, H.A. Wu*, and T.Y. Zhai*. Modulation of molecular spatial distribution and chemisorption with perforated nanosheets for ethanol electro‐oxidation. Advanced Materials, 2019, 31(28): 1900528. (IF = 32.086)
M.W. Chen, Y.B. Zhu*, J. Xia, and H.A. Wu*. Molecular insights into the initial formation of pyrolytic carbon upon carbon fiber surface. Carbon, 2019, 148: 307–316. (IF = 11.307)
Y.Z. Yu, J.C. Fan, J. Xia, Y.B. Zhu, H.A. Wu, and F.C. Wang*. Dehydration impeding ionic conductance through two-dimensional angstrom-scale slits. Nanoscale, 2019, 11: 8449–8457. (IF = 8.307)
S.M. Chen#, H.L. Gao#, Y.B. Zhu#, H.B. Yao, L.B. Mao, Q.Y. Song, J. Xia, Z. Pan, Z. He, H.A. Wu, and S.H. Yu*. Biomimetic twisted plywood structural materials. National Science Review, 2018, 5(5): 703–714. (IF = 23.178)
获奖情况中国科学院特别研究助理资助,2021年
中国科学技术大学“墨子杰出青年特资津贴”一等资助,2020年
重要学术活动J. Xia, Attenuation of Mechanical Transverse Wave Propagations via Grain Boundaries in Graphene, the 18th U.S. National Congress of Theoretical and Applied Mechanics (USNCTAM), Chicago, USA, June 4–9, 2018. (Oral presentation)
J. Xia, Grain Boundaries Applied in Attenuation of Mechanical Transverse Wave Propagations in Graphene, the 9th International Conference on Computational Methods (ICCM), Rome, Italy, August 6–10, 2018. (Oral presentation)
J. Xia, Mutual Transformations Between Divacancy Defects Induced by High-energy Pulses in Graphene, the 8th International Conference on Computational Methods (ICCM), Guilin, China, July 25–29, 2017. (Oral presentation)
夏骏,石墨烯中V2缺陷在高能脉冲加载下的转化机理,第十八届华东固体力学会议,厦门,2016年11月. (Oral presentation)
夏骏,分子动力学模拟研究石墨烯材料缺陷演化机理,中国力学大会,上海,2015年8月. (Oral presentation)
联系方式Email: xiajun@ujs.edu.cn

 
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