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江浩庆

研究员

联系方式:jianghaoqing@hnas.ac.cn

  

一、个人基本信息

江浩庆,男,博士,研究员,硕士生导师。

二、奖励

[1]武汉大学2022年学术成果奖 二等奖(成果主要完成人);

[2]第九届全国无机化学会议 优秀墙报奖;

[3]武汉大学化学院2019年化学摄影展 三等奖;

[4]武汉大学第254期博士沙龙主讲嘉宾;

三、主讲课程和研究方向

主讲课程:材料科学前沿、纳米科学前沿

研究方向:激光和材料相互作用研究,人工智能系统在精密光学加工中的应用,激光微纳制造,特别是金属和碳基纳米材料的激光制备和规模化生产技术,面向绿色能源、生物医药和光电器件的先进材料合成。

研究对象简介:

激光作为一种革命性的技术在人类的生活和生产中得到了大规模的应用,并极大地促进了人类社会的进步和生活水平的提高。激光具有能量密度高、准直性好和指向性强的特点,能够与材料发生独特的相互作用,是一种先进的材料加工能量源。激光可作用的材料范围甚广,例如金属、陶瓷、晶体材料、聚合物以及生物组织等。通常,激光用来对较大尺度(微米和毫米以上)材料进行加工和处理,例如3D打印和激光切除技术等。激光和材料在微纳尺度上的相互作用的研究还处于初级阶段。我的研究兴趣集中在激光与材料在微纳尺度相互作用过程,激光和材料相互作用的物理化学模型,和微纳材料激光规模化、智能化、自动化制备技术。

四、论文

代表性论文(*为通讯作者,为共一作):

[1]Jiang H., Liu, X., Zhu, M., Xu, J., An, L., Sui, P., Luo, J.*, Cheng, G. J.* Nanoalloy libraries from laser induced thermionic emission reduction. Science Advance, 2022, 8, eabm6541. 影响因子 14.957

[2]Jiang, H., Liu, S., Deng, H.* Packing Metal-organic Frameworks into an Opal Structure. ACS Cent. Sci., 2022, 8, 689-691. 影响因子 18.728

[3]Jiang, H., Liu, X. C., Wu, Y., Shu, Y., Gong, X., Ke, F. S.*, Deng, H.* Metal-organic frameworks for high charge-discharge rates in lithium-sulfur batteries. Angew. Chem. Int. Ed., 2018, 57, 3916-3921. 影响因子16.823

[4]Jiang, H., Jin, S., Wang, C., Ma, R., Song, Y., Gao, M., Liu, X., Shen, A., Cheng, G. J.*, Deng, H.* Nanoscale laser metallurgy and patterning in air using MOFs. J. Am. Chem. Soc., 2019, 141, 5481-5489. 影响因子 16.383

[5]Jiang, H., Tong, L., Liu, H., Xu, J., Jin, S., Wang, C., Hu, X., Ye, L.*, Deng, H.*, Cheng, G. J.* Graphene-metal-metastructure monolith via laser shock-induced thermochemical stitching of MOF crystals. Matter 2020, 2, 1535-1549. 影响因子 19.967

[6]An L., Liu, X., Deng, B., Jiang H.*, Cheng G. J.*, Liquid Metal Nanolayer Linked MOFs Nanocomposites by Laser Shock Evaporation. Matter 2021, 4, 3977-3990. 影响因子 19.967

[7]Liu, X., An Li., Xiang, S., Jiang, H.*, Cheng, G. J.* 3D MOF Nanoarchitecture Membrane via Ultrafast Laser Nanoforging. Small Methods, 2021, 5, 2100758. 影响因子 15.367

[8]Guo, S., Song, C., Liu, F., Zeng, D., Yuan, H., Liu, X., Jiang, H.*, and Cheng, G. J.* Bionic Optical Leaf for Photoreduction of CO2 from Noble Metal Atom Mediated Graphene Nanobubble Arrays. ACS Nano 2022, 16, 1909-1918. 影响因子 18.027

[9]Guo, S., Zhao, Y., Yuan, H., Wang, C., Jiang, H.*, Cheng, G. J.* Ultrafast laser manufacture of stable, efficient ultrafine noble metal catalysts mediated with MOF derived high density defective metal oxides. Small 2020, 2000749. 影响因子 15.153

[10]Yi, W., Jiang, H.*, Cheng, G. J.* Mesoporous LDH Metastructure from Multiscale Assembly of Defective Nanodomains by Laser Shock for Oxygen Evolution Reaction. Small 2022, 2202403. 影响因子 15.153

[11]Wu, Y., Huang, Z., Jiang, H.*, Wang, C., Zhou, Y., Shen, W., Xu, H.*, Deng, H.* Facile synthesis of uniform metal carbide nanoparticles from metalorganic frameworks by laser metallurgy. ACS Appl. Mater. Interfaces 2019, 11, 44573-44581. 影响因子10.383

[12]Guo, S., Zhao, Y., Wang, C., Jiang, H.*, Cheng, G. J.* A Single-Atomic Noble Metal Enclosed Defective MOF via Cryogenic UV Photoreduction for CO Oxidation with Ultrahigh Efficiency and Stability. ACS Appl. Mater. Interfaces 2020, 12, 26068-26075. 影响因子 10.383

[13]Guo, S., Yuan, H., Jiang, H.*, Liu, F.*, Cheng, G. J.* Isolated atomic catalysts encapsulated in MOF for ultrafast water pollutant treatment. Nano Res. 2021, 14, 1287-1293. 影响因子 10.269

[14]Guo, S., Yuan, H., Liu, F., Luo, W., Li, B., Yang, Y., Jiang H.*, Cheng, G. J.* Silver Nanowires Interlocked Graphene Aerogel for Ultra-high Efficient Clearage of Oil Pollution on Water. Sustain. Mater. Technol., 2021, 29, e00285. 影响因子 10.681

[15]Yan, W., Jiang, H., Yi, W., Zhao, C., Xia, Y., Cong, H., Tang, L.*, Cheng, G. J.*, He, J.*, Deng, H.* High-entropy-alloy nanoparticles synthesized by laser metallurgy using a multivariate MOF. Mater. Chem. Front., 2022, Advance Article. 影响因子 8.683

[16]An, L., Jiang, H., de Camargo Branco, D., Liu, X., Xu, J., Cheng, G.J.* Self-packaged high-resolution liquid metal nano-patterns. Matter 2022, 5, 1016-1030.

[17]Xu J., Wang, R., Jiang, H., Liu, X., An, L., Jin, S., Deng, B., Wu, W., Cheng G. J.* Magnetically Aligned Ultrafine Cobalt Embedded 3D Porous Carbon Metamaterial by One-step Ultrafast Laser Direct Writing. Adv. Sci., 2021. 2102477.

[18]Ma, R., Jiang, H., Wang, C., Zhao, C., Deng, H.* Multivariate MOFs for laser writing of alloy nanoparticle patterns. Chem. Commun., 2020, 56, 2715-2718.

[19]Gao, M. Y., Jiang, H., Han, F. Y., Deng, H. *, Hu, J. M., Shen, A. G.* A laser metallurgy route for the batch preparation of mm-scale 3D silver/graphite hetero nanoclusters in air. Nanoscale 2020, 12, 24054-24061.

[20]Zhang, W., Yan, W., Jiang, H., Wang, C., Zhou, Y., Ke, F., Cong, H., Deng, H.* Uniform BiSb alloy nanoparticles synthesized from MOFs by laser metallurgy for sodium-ion batteries. ACS Sustainable Chem. Eng. 2020, 8, 335-342.

[21]Wu, Y., Jiang, H., Ke, F. S.*, Deng, H.* Three-Dimensional Hierarchical Constructs of MOF-on-Reduced Graphene Oxide for Lithium-Sulfur Batteries. Chem. Asian J. 2019, 14, 3577-3582.

[22]Yuan, J., Yi, C., Jiang, H., Liu, F., Cheng, G. J.* Direct Ink Writing of Hierarchically Porous Cellulose/Alginate Monolithic Hydrogel as a Highly Effective Adsorbent for Environmental Applications. ACS Appl. Polymer Mater. 2021, 3, 699-709.

[23]Zhang, X., Kan, W., Jiang, H., Chen, Y., Cheng, T., Jiang, H., Hu, X.* Capillary-driven low grade heat desalination. Desalination 2017, 410, 10-18.

[24]Zhang, X., Jiang, H., Kan, W., Zheng, L., Cheng, T., Chen, Y., Hu, X.* Capillary-driven seawater desalination. SCIENTIA SINICA Technologica 2015, 45, 654-660.

[25]Zhang, X., Wang, H., Jiang, H., Li, C.*, Hu, X.* Open loop heat pipes for high-efficiency desalination plant. Appl. Thermal Eng., 2021, 193, 117027.

[26]Dou, X., Liu, J., Gong, X., Jiang, H., Deng, H.* Laser driven conversion of MOFs to rare earth metal oxide nanoparticles. APL Mater. 2022, 10, 041110.

五、科研项目

[1]2018-2022年基于超快激光制造的跨材料共性基础问题 国家重点研发项目骨干成员。

[2]2023-2025年航空发动机涡轮叶片气膜孔激光精密加工系统研制河南省科学院创新创业项目子课题负责人。

六、专利与软著

[1]一种纳米金属颗粒的冶炼方法及其图案化的方法 邓鹤翔;江浩庆;程佳瑞ZL201910130182.7

[2]一种载硫MOF@导电聚合物材料及其制备方法和应用 邓鹤翔;江浩庆;柯福生 ZL201810079151.9

[3]一种制备环路热管毛细芯的方法 胡雪蛟;章先涛;江浩庆;陈燕鸣;阚伟民;郑李坤 ZL201310505756.7

七、联系方式

E-mailjianghaoqing@hnas.ac.cn