李道奎
作者: 佚名 发布时间: 2023年10月19日 15:12 浏览次数:

李道奎

1

职称职务

助理研究员


 

 

 

联系电话


Email

dkli@cqu.edu.cn

联系地址

重庆市沙坪坝区沙正街174
我校A区beat365中国在线体育/400030

研究方向

矿物加工工程;矿物功能材料;环境矿物材料;新能源材料;固废资源材料化

个人简历

2023.07~至今 我校,beat365中国在线体育,助理研究员

2019.09~2023.06   中南大学,资源加工与生物工程学院,博士

2016.09~2019.06   北京科技大学,土木与资源工程学院,硕士

2012.09~2016.06   辽宁工程技术大学,矿业学院,学士

代表性专利

[1] 发明专利,一种复合矿物微球基相变储热材料的制备方法, 授权专利号 ZL   202110788767.5

[2] 发明专利,一种三元复合矿物微球基相变储热材料及其制备方法和应用, 授权专利号 ZL   202111373845.1

[3] 实用新型专利,一种用于测量相变储能构件热性能的装置,授权专利号 ZL   202222849571.5

[4] 发明专利,具有吸波和热管理双功能的复合微球及其制备方法和应用,申请号   202210994488.9

[5] 发明专利,一种海胆状核壳矿物微球基储热吸波一体化材料及其制备方法和应用,申请号   202210992926.8

[6] 发明专利,一种NiFe2O4包覆矿物微球的吸波储热一体化材料及其制备方法,申请号202211081491.8

[7] 发明专利,一种三维高导热凹凸棒石/氧化石墨烯气凝胶复合相变材料及其制备方法,申请号   CN202211286115.2

[8] 发明专利,一种碳包覆铝硅酸盐纳米片基储热材料及其制备方法,申请号:CN202210997624.X

[9] 发明专利,一种改性膨胀珍珠岩基相变复合材料及其制备方法和应用,申请号:CN202111525105.5

代表性论文

[1] D. Li, Y. Tang, X. Zuo, et al.   Functionally constructed mineral microspheres for efficient photothermal   conversion and thermal energy storage[J]. Carbon   2022, 196: 365-377.

[2] D. Li, Y. Tang, X. Zuo, et al.   Functionally constructed mineral microspheres for efficient thermal energy   storage and electromagnetic interference shielding [J]. J. Colloid Interface Sci.   2023, 650: 764-774.

[3] D. Li, X. Zuo, X. Zhang, et al. Emerging   urchin-like core-shell mineral microspheres with efficient photothermal   conversion and solar energy storage [J]. J.   Energy Storage 2023, 68:107661

[4] D. Li, Y. Tang, X. Zuo, et al.   Preparation of hierarchical porous microspheres composite phase change   material for thermal energy storage concrete in buildings [J]. Appl. Clay Sci. 2023,   232: 106771

[5] D. Li, J. Kou, C. Sun, et al. Application   of superconducting magnetic separation to an artificial mixture of   chalcopyrite and molybdenite[J]. Physicochem. Probl.   Mineral Pro. 2019, 55(3): 597-604.

[6] D. Li, J. Kou, C. Sun et al. The   application of superconducting magnetic separation in copper-moly   separation[J]. Sep. Sci. Technol.   2019, 54(11): 1871-1878.

[7] Y. Tang, X. Zhao, D. Li, et al.   Nano-porous carbon-enabled composite phase change materials with high   photo-thermal conversion performance for multi-function coating[J]. Sol. Energy Mater. Sol. Cells   2022, 248: 112025.

[8] F. Han, Q. Liu, D. Li, et al. An emerging   and high-performance sepiolite-supported Ni catalyst for low-temperature CO2   methanation: The critical role of hydroxyl groups[J]. J. Environ. Chem. Eng.   2023: 110331.

[9] X. Zhao, Y. Tang, W. Xie, D. Li, et al. 3D   hierarchical porous expanded perlite-based composite phase-change material   with superior latent heat storage capability for thermal management[J]. Constr. Build. Mater. 2023,   362: 129768.

[10] Q. Liu, S. Wang, F. Han, S. Lv, D. Li, et al. Multiple Interface Coupling in   Ultrathin Mn-based Composites for Superior Catalytic Oxidation: Implications   of Interface Coupling on Structural Defects[J]. J. Colloid Interface   Sci. 2023,642:380-392.

[11] X. Zhao, Y. Tang, J. Wang, Y. Li, D. Li, et al. Visible Light Locking   in Mineral-Based Composite Phase Change Materials Enabling High Photothermal   Conversion and Storage. ACS Appl. Mater. Interfaces 2023.   DOI: https://doi.org/10.1021/acsami.3c10348.

 

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