研究方向:CO2捕获、分离与转化
毕业去向:辽宁大学物理学院
现居地址:辽宁省沈阳市
博士期间发表的文章(专利):
[1]S. N. Zhou, M. H. Wang, J. H. Wang, H. L. Xin, S. Y. Liu*, Z. J. Wang, S. X. Wei, X. Q. Lu*. Carbon phosphides: promising electric field controllable nanoporous materials for CO2 capture and separation. Journal of Materials Chemistry A, 2020, 8, 9970–9980. (IF = 12.732)
[2]S. N. Zhou, S. F. Cao, S. X. Wei, Z. J. Wang*, H. Y. Chen, X. J. Lin, X. J. Chen, S. Y. Liu, X. Q. Lu*. Triple-atom catalysts 3TM-GYs (TM = Cu, Fe, and Co; GY = graphyne) for high-performance CO2 reduction reaction to C1 products. Applied Materials Today, 2021, 25,101245. (IF = 10.041)
[3]S. N. Zhou, M. H. Wang, S. X. Wei, S. F. Cao, Z. J. Wang*, S. Y. Liu, D. F. Sun, X. Q. Lu*. First-row transition-metal-doped graphyne for ultrahigh-performance CO2 capture and separation over N2/CH4/H2. Materials Today Physics, 2021, 16, 100301. (IF = 9.298)
[4]S. N. Zhou, M. H. Wang, S. X. Wei*, H. L. Xin, W. R. Zhai, S. Y. Xu, S. Liu, S. Y. Liu, Z. J. Wang, Chi-Man Lawrence Wu, X. Q. Lu*. Multi-objective optimization of alkali/alkaline earth metals doped graphyne for ultrahigh-performance CO2 capture and separation over N2/CH4. Materials Today Physics, 2021, 21, 100539. (IF = 9.298)
[5]S. N. Zhou, Z. J. Wang, M. H. Wang, J. H. Wang, S. X. Wei*, W. Y. Guo, X. Q. Lu*. Boron nitride membranes towards ultra-high selective helium separation, ACS Applied Nano Materials, 2019, 2, 4471–4479. (IF = 5.097)
[6]M. H. Wang#, S. N. Zhou#, S. F. Cao, Z. J. Wang*, S. Y. Liu, S. X. Wei, X. Q. Lu*. Stimulus-responsive adsorbent materials for CO2 capture and separation, Journal of Materials Chemistry A, 2020, 8, 10519–10533. (共同一作,IF = 12.732)
[7]S. F. Cao, S. N. Zhou, H. Y. Chen, S. X. Wei, S. Y. Liu*, X. J. Lin, X. D. Chen, Z. J. Wang, W. Y. Guo, X. Q. Lu*. How can the dual-atom catalyst FeCo‒NC surpass single-atom catalysts Fe‒NC/Co‒NC in CO2RR? CO intermediate assisted promotion via a synergistic effect, Energy & Environmental Materials,
[8]Z. F. Tang, S. N. Zhou, H. Y. Liu,* X. Y. Wang, S. S. Liu, L. Shen, X. Q. Lu, X. Y. Li*, Tuning singlet fission in amphipathic tetracene nanoparticles by controlling molecular packing with side-group engineering. Materials Chemistry Frontiers, 2020, 4, 2113–2125.
[9]X. F. Liu, M. H. Wang*, S. N. Zhou, J. H. Wang, H. L. Xin, S. X. Wei*, S. Y. Liu, Z. J. Wang, X. Q. Lu*. Tracking CO2 capture and separation over N2 in a flexible metal–organic framework: insights from GCMC and DFT simulations. Journal of Materials Science, 2021, 56, 10414–10423.
[10]X. Q. Lu*, M. H. Wang, S. N. Zhou, Z. J. Wang, H. L. Xin, Z. J. Wang, S. Y. Liu, S. X. Wei*. High-efficiency CO2 capture and separation over N2 in penta-graphene pores, Journal of Materials Science, 2020, 55, 16603–16611.
[11]Q. D. Zhang, S. X. Wei, S. N. Zhou, X. F. Wei, Z. J. Xu, Z. J. Wang, B. J. Wei*, X. Q. Lu*. Theoretical investigation on copper(I) complexes featuring phosphonic acid anchor with asymmetric ligands for DSSC, ACS Applied Electronic Materials, 2020, 2, 2141–2150.
[12]S. X. Wei, S. Y. Liu*, S. F. Cao, S. N. Zhou, Y. Chen*, Z. J. Wang, X. Q. Lu*. Theoretical investigation of the fusion process of mono-cages to tri-cages with CH4/C2H6 guest molecules in sI hydrates, Molecules, 2021, 26, 7071.
[13]M. H. Wang, W. R. Zhai, S. N. Zhou, X. Q. Lu*, C. M. L. Wu*. Strain-controlled DHP-graphene for ultrahigh-performance hydrogen purification, Applied Surface Science, 2021, 553, 149575.
[14]S. F. Cao, S. X. Wei*, X. F. Wei, S. N. Zhou, H. Y. Chen, Y. Y. Hu, Z. J. Wang, S. Y. Liu, W. Y., Guo, X. Q. Lu*. Can N, S cocoordination promote single atom catalyst performance in CO2RR? Fe‒N2S2 porphyrin vs. Fe‒N4 porphyrin, Small, 2021, 17, 2100949.
[15]H. Y. Chen, Z. J. Wang, S. F. Cao, S. Y. Liu, X. J. Lin, Y. Zhang, Y. Z. Shang, Q. Y. Zhu, S. N. Zhou, S. X. Wei, B. J. Wei*, D. F. Sun, X. Q. Lu*. Facile synthesis of antimony-doped Cu/Cu2O catalyst with robust CO production in broad potentials for CO2 electrochemical reduction. Journal of Materials Chemistry A, 2021, 9, 23234–232421.
会议论文:
[1]S. N. Zhou, H. L. Xin, W. R. Zhai, S. Y. Xu, S. Liu, H. Dong, X. Q. Lu. Functionalized α-GDY with different displacement distance for CO2/CH4 diffusion and separation, Journal of Physics: Conference Series, 2021, 2009 012031. (EI收录)
博士期间获得的荣誉奖励:
第十六届中国石油大学(华东)学术十杰、研究生国家奖学金、学术十杰提名奖等
个人寄语:
天道酬勤,亦酬术。
