王茂槐(讲师)
发布人:陈文雪  发布时间:2024-09-13   浏览次数:4737

»姓名:王茂槐

»系属:基础物理系

»学位:博士

»职称:讲师

»学科:材料物理与化学

»导师类别:

»电子邮箱:wangmh@upc.edu.cn

»联系电话:

»通讯地址:山东省青岛市黄岛区长江西路66号(邮编:266580

»概况

◎研究方向
   1.
碳捕获与利用
   2.
油气田开发与CO2地质封存


◎学习与工作经历
   2013.9-2017.6
,中国石油大学(华东),理学学士;
   2017.9-2020.6
,中国石油大学(华东),工学硕士;
   2020.9-2024.6
,香港城市大学,工学博士;
   2024.8
至今,中国石油大学(华东),材料科学与工程流动站博士后;
   2024.8
至今,中国石油大学(华东),基础物理系,讲师。

◎承担和参与项目
掺氮碳质有机骨架材料的设计及CO2捕获与分离机理研究,山东省自然科学基金,2019-2022


◎论文
1.第一作者主要论文:
1 Q. Yin, M. H. Wang, H. Cui, W. Zhai, C. Xia, B. Wei, S. Wei, Z. Wang, S. Liu, X. Lu, Hydrogen purification in nitrogen-doped two-dimensional conjugated  microporous polymers, Applied Materials Today, 39 (2024) 102290. (共一)

2 M. H. Wang, L. Kong, X. Lu, C.-M. Lawrence Wu, Coordination environment engineering to regulate the adsorption   strength of intermediates in single atom catalysts for high-performance CO2   Reaction Reduction. Small, 20 (2024) 2310339.

3 M. H. Wang, L. Kong, X. Lu, C.-M. Lawrence Wu, Transition metal doped pyrrole-NC for high-performance CO2   reduction reaction to C1 products, Applied Surface Science 618 (2023) 156678.

4 M. H. Wang, L. Kong, X. Lu, C.-M. Lawrence Wu, First-row transition metal embedded pyrazine-based graphynes as   high-performance single atom catalysts for the CO2 reduction reaction,   Journal of Materials Chemistry A 10 (2022) 9048-9058.

5 M. H. Wang, L. Kong, X. Lu, C.-M. Lawrence Wu, Can charge-modulated metal-organic frameworks achieve high-performance   CO2 capture and separation over H2, N2, and CH4, ChemSusChem 15 (2022)   e202101674.

6 M. H. Wang, W. Zhai, S. Zhou, X. Lu, C.-M. Lawrence Wu, Strain-controlled DHP-graphene for ultrahigh-performance   hydrogen purification, Applied Surface Science 553 (2021) 149575.

7 M. H. Wang, S. Zhou, S. Cao, Z. Wang, S. Liu, S. Wei, Y. Chen, X. Lu, Stimulus-responsive adsorbent materials for   CO2 capture and separation, Journal of Materials Chemistry A 8 (2020)   10519-10533.

8 S. Zhou, M. H. Wang, J. Wang, H. Xin, S. Liu, Z. Wang, S. Wei, X. Lu, Carbon phosphides: promising electric field   controllable nanoporous materials for CO2 capture and separation, Journal of   Materials Chemistry A 8 (2020) 9970-9980. (共一)

9 P. Guo, M. H. Wang, Y. Zhang, Y. Wang, X. Xin, R. Wang, W. Huang, X. Li, Phase-dependent intermediate adsorption   regulation on molybdenum carbides for efficient pH-universal hydrogen   evolution, Applied Surface Science 625 (2023) 157169. (共一)

10 M. H. Wang, S. Wei, S. Liu, Z. Wang, X. Lu, Interlayer expansion in a layered metal-organic framework enhances CO2 capture and CO2/N2 separation, ChemPhysChem 23 (2022) e202200298.

11 M. H. Wang, Z. Wang, S. Zhou, J. Wang, S. Liu, S. Wei, W. Guo, X. Lu, Strain-controlled carbon nitride: A continuously tunable membrane for gas separation, Applied Surface Science 506   (2020) 144675.

12 M. H. Wang, Z. Zhang, Y. Gong, S. Zhou, J. Wang, Z. Wang, S. Wei, W. Guo, X. Lu, Penta-graphene as a promising controllable CO2 capture and separation material in an electric field,   Applied Surface Science 502 (2020) 144067.

13 M. H. Wang, S. Wei, Z. Wu, S. Zhou, Z. Wang, J. Wang, X. Lu, Alkyl amine functionalized triphenylamine-based covalent organic frameworks for high-efficiency CO2 capture and separation   over N2, Materials Letters 230 (2018) 28-31.
2.第二作者(通讯作者)主要论文:
1 X. Lu, H. Zhang, S. Liu, L. Wang, L. Zhang, M. H. Wang, Z. Wang, S. Liu, S.   Wei, Efficient CO2 capture and separation in TpPa COFs: Synergies from   functional groups and metal Li, Separation and Purification Technology 342   (2024) 127036. (通讯)

2 S. Wei, S. Xu, L. Wang, S. Liu, X. Yue,   H. Fang, M. H. Wang, S. Liu, Z. Wang, X. Lu, Li-decorated graphdiyne for   ultrahigh-performance CO2 capture and separation over N2, Separation and   Purification Technology 326 (2023) 124816. (通讯)

3 S. Xu, S. Wei, L. Wang, S. Liu, M. H.   Wang, S. Liu, Z. Wang, T. Yang, X. Lu, Li-decorated β1-graphyne for   high-performance CO2 capture and separation over N2, Applied Surface Science   605 (2022) 154724. (通讯)

4 W. Zhai, M. H. Wang, S. Liu, S. Xu, H.   Dong, L. Wang, S. Wei, Z. Wang, S. Liu, X. Lu, Theoretical investigation on   two-dimensional conjugated aromatic polymer membranes for high-efficiency   hydrogen separation: The effects of pore size and interaction, Separation and   Purification Technology 299 (2022) 121674. (通讯)

5 S. Wei, H. Xin, M. H. Wang, S. Xu, W.   Zhai, S. Liu, L. Wang, S. Liu, Z. Wang, X. Lu, Functionalized 3D covalent   organic frameworks for high-performance CO2 capture and separation over N2,   Advanced Theory and Simulations 5 (2022) 2200588. (通讯)

6 X. Liu, M. H. Wang, S. Zhou, J. Wang,   H. Xin, S. Wei, S. Liu, Z. Wang, X. Lu, Tracking CO2 capture and separation   over N2 in a flexible metal–organic framework: insights from GCMC and DFT   simulations, Journal of Materials Science 56 (2021) 10414–10423. (通讯)


◎学术兼职

担任《Nature Communications》、《Colloid and Surface Science》等多个期刊审稿人。

 


 
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