研究方向:碳捕获分离
毕业去向:香港城市大学读博
现居地址:香港九龙
硕士期间发表的文章(专利):
1.[1] Wang M. H., Zhou S. N., Cao S. F., Wang Z. J., Liu S. Y., Wei S. X., Chen Y., Lu X. Q., Stimulus-responsive adsorbent materials for CO2 capture and separation. Journal of Materials Chemistry A, 2020, 8: 10519‒10533.
[2] Wang M. H., Wang Z. J., Zhou S. N., Wang J. H., Wei S. X., Guo W. Y., Lu X. Q., Strain-controlled carbon nitride: a continuously tunable membrane for gas separation. Applied Surface Science, 2020, 506: 144675.
[3] Wang M. H., Zhang Z. Y., Gong Y. Q., Zhou S. N., Wang J. H., Wang Z. J., Wei S. X., Guo W. Y., Lu X. Q., Penta-graphene as a promising controllable CO2 capture and separation material in an electric field. Applied Surface Science, 2020, 502: 144067.
[4] Wang M. H., Wei S. X., Wu Z. H., Zhou S. N., Wang Z. J., Wang J. H., Lu X. Q., Alkyl amine functionalized triphenylamine-based covalent organic frameworks for high-efficiency CO2 capture and separation over N2. Materials Letters, 2018, 230: 28‒31.
[5] Zhou S. N., Wang M. H., Wang J. H., Xin H. L., Liu S. Y., Wang Z. J., Wei S. X., Lu X. Q., Carbon phosphides: promising electric field controllable nanoporous materials for CO2 capture and separation. Journal of Materials Chemistry A, 2020, 8: 9970‒9980.
[6] Zhou S. N., Wang M. H., Wei S. X., Cao S. F., Wang Z. J., Liu S. Y., Sun D. F., Lu X. Q. First-row transition-metal-doped graphyne for ultrahigh-performance CO2 capture and separation over N2/CH4/H2, Materials Today Physics, 2021, 16, 100301.
[7] Lu X. Q., Wang M. H., Zhou S. N., Wang Z. J., Xin H. L., Wang Z. J., Liu S. Y., Wei S. X. High-efficiency CO2 capture and separation over N2 in penta-graphene pores, Journal of Materials Science, 2020, 55, 16603–16611.
[8] Lu X. Q., Wang M. H., Theoretical investigation on adsorption and separation of CO2/N2 in hybrid ultramicroporous materials. Journal of Inorganic Materials, 2020, 35(4):469‒474.
[9] Hou Q., Wang M. H., Liu S., Dong H. B., Guo W. Y., Lu X. Q., Mechanisms into hydrogen purification in a graphene-like carbon nitride separation membrane. Journal of Inorganic Materials, 2020, 35 (11): 1234-1238.
[10] Wu Z. H., Wei S. X., Wang M. H., Zhou S. N., Wang J. H., Wang Z. J., Guo W. Y., Lu X. Q., CO2 capture and separation over N2 and CH4 in nanoporous MFM-300 (In, Al, Ga, and In-3N): insight from GCMC simulations. Journal of CO2 Utilization, 2018, 28: 145‒151.
[11] Zhai W. R., Wang J. H., Wang M. H., Du X. M., Wei S. X., Adsorption and separation of CO2/N2 in metal organic frameworks: a theoretical investigation. Journal of Inorganic Materials, 2020, 35(6): 697‒702.
[12] Zhou S. N., Wang Z. J., Wang M. H., Wang J. H., Wei S. X., Guo W. Y., Lu X. Q., Nanoporous boron nitride membranes for helium separation. ACS Applied Nano Materials, 2019, 2(7): 4471‒4479.
[13] Liu X. F., Wei S. X., Zhou S. N., Wu Z. H., Wang M. H., Wang Z. J., Wang J. H., Lu X. Q., Li-modified nanoporous carbons for high-performance adsorption and separation of CO2 over N2: a combined DFT and GCMC computational study. Journal of CO2 Utilization, 2018, 26: 588‒594.
[14] Wei S. X., Zhou S. N., Wu Z. H., Wang M. H., Wang Z. J., Guo W. Y., Lu X. Q., Mechanistic insights into porous graphene membranes for helium separation and hydrogen purification. Applied Surface Science, 2018, 441: 631‒638.
[15] Zhou S. N., Guo C., Wu Z. H., Wang M. H., Wang Z. J., Wei S. X., Li S. R., Lu X. Q., Edge-functionalized nanoporous carbons for high adsorption capacity and selectivity of CO2 over N2. Applied Surface Science, 2017, 410: 259‒266.
[16] Zhou S. N., Lu X. Q., Wu Z. H., Jin D. L., Guo C., Wang M. H., Wei S. X., Diffusion and separation of CH4/N2 in pillared graphene nanomaterials: A molecular dynamics investigation. Chemical Physics Letters, 2016, 660: 272‒276.
[17] 鲁效庆,张田,郭琛,曹守福,王茂槐,张全德,一种加氢脱硫催化剂表面活性相与其催化活性构效关系的解析方法技术,2018103670338
本硕期间获得的荣誉奖励:
本科:国家奖学金、国家励志奖学金、校学习二等奖学金,第六届山东省大学生数学竞赛一等奖,校物理实验技能创新大赛一等奖,校金相实验技能大赛优胜奖,第二届党风廉政知识竞赛二等奖,优秀学生、优秀学生干部、优秀共青团员、优秀共青团干部、优秀志愿者、优秀毕业生
硕士:优秀生源奖学金,学习优秀奖学金一等奖,学习优秀奖学金二等奖,优秀研究生,优秀研究生干部,优秀志愿者,国家奖学金,优秀毕业研究生,优秀毕业论文
个人寄语:
没有人知道鞋子是否挤脚,除了穿着它行走的人。
