研究方向：电催化CO2还原

毕业去向：南方科技大学

博士期间发表的文章（专利）：

[1] S. F. Cao, Z. J. Wang, S. X. Wei, S. Y. Liu, X. Q. Lu. Tandem atomically dispersed metal catalysts for flow-line ECO2RR[J], Coordination Chemistry Review, 2024, 514: 215955. (IF = 20.6)

[2] 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[J], Energy & Environmental Materials, 2023, 6: e12287. (IF = 15)

[3] S. F. Cao, H. Y. Chen, Y. Y. Hu, J. Li, J. Li, C. Y. Yang, Z. X. Chen, S. X. Wei, S. Y. Liu, Z. J. Wang, D. F. Sun, X. Q. Lu. Mxene-based single atom catalysts for efficient CO2RR towards CO: A novel strategy for high-throughput catalyst design and screening[J]. Chemical Engineering Journal, 2023, 461: 141936. (IF = 15.1)

 [4] S. F. Cao, S. X. Wei, X. F. Wei, 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[J]. Small, 2021,17: 2100949. (IF = 13.2)

[5] S. F. Cao, H. Y. Chen, X. F. Wei, J. Li, C. Y. Yang, Z. X. Chen, S. X. Wei, S. Y. Liu, Z. J. Wang, X. Q. Lu. Asymmetric coordination engineering of active centers in MXene-based single atom catalysts for high-performance ECO2RR[J], Carbon, 2024, 488:151158. (IF = 10.9)

[6] S. F. Cao, Y. C. Liu, Y. Y. Hu, J. Li, C. Y. Yang, Z. J. Wang, S. Y. Liu, X. Q. Lu. Precise electronic structure modulation on mxene-based single atom catalysts for high-performance electrocatalytic CO2 reduction reaction: A first-principle study[J]. Journal of Colloid and Interface Science, 2023, 642: 273–282. (IF = 9.9)

[7] S. F. Cao, Y. Y. Hu, C. Y. Yang, J. Li, H. Y. Chen, S. X. Wei, S. Y. Liu, Z. J. Wang, D. F. Sun, X. Q. Lu. Constructing surface vacancy to activate the stuck MXenes for high-performance CO2 reduction reaction[J]. Journal of CO2 Utilization, 2022, 62: 102074. (IF = 7.7)

[8] S. F. Cao, Hongyu Chen, Jiao Li, Zengxuan Chen, Chunyu Yang, Shuxian Wei, Siyuan Liu, Zhaojie Wang, Xiaoqing Lu. Understanding the role of central metal and coordination environment of single atom catalysts embedded in graphene flakes on CO2RR performance[J]. Journal of Materials Science, 2023, 58: 15714-15726. (IF = 4.4)

[9] P. Guo#, S. F. Cao#, W. J. Huang#, X. Q. Lu, W. Z. Chen, Y. Z. Zhang, Y. J. Wang, X. Xin, R. Q. Zou, S. B. Liu, X. H. Li. Heterojunction induced rapid transformation of Ni3+/Ni2+ sites which mediates urea oxidation for energy-efficient hydrogen production[J]. Advanced Materials, 2024, DOI: 10.1002/adma.202311766. (共同一作，IF = 29.4)

[10] H. L. Li#, S. F. Cao#, H. M. Sun#, Y. L. Lu, Y. Zhang, X. Q. Lu, J. B. Zeng, Z. F. Yan. CuNCN derived Cu-based/CxNy catalysts for highly selective CO2 electroreduction to hydrocarbons[J]. Applied Catalysis B: Environmental, 2023, 320: 121948. (共同一作，IF = 22.1)

[11] W. Duan#, Z. W. Qiu#, S. F. Cao#, Q. Guo, J. K. Huang, J. Y. Xing, X. Q. Lu, J. B. Zeng. Pd–Fe3O4 Janus nanozyme with rational design for ultrasensitive colorimetric detection of biothiols[J]. Biosensors & Bioelectronics, 2022, 196: 113724. (共同一作，IF = 12.6)

[12] H. H. Liu#, S. F. Cao#, J. R. Zhang, S. Y. Liu, C. Chen, Y. Zhang, S. X. Wei, Z. J. Wang, X. Q. Lu. Facile control of surface reconstruction with Co2+ or Co3+-rich (oxy)hydroxide surface on ZnCo phosphate for large-current-density hydrogen evolution in alkali[J]. Materials Today Physics, 2021, 20: 100448. (共同一作，IF = 11.5)

[13] J. Q. Xu#, S. F. Cao#, M. X. Zhong, X. J. Chen, W. M. Li, S. Yan, C. Wang, Z. J. Wang, X. Q. Lu, X. F. Lu. Iridium incorporated cobalt-based hydroxide on nickel-contained carbon nanofibers renders highly efficient oxygen evolution reaction[J]. Separation and Purification Technology, 2023, 324: 124638. (共同一作，IF = 9.9)

[14] J. Q. Xu#, S. F. Cao#, M. X. Zhong, S. Y. Ren, X. J. Chen, W. M. Li, C. Wang, Z. J. Wang, X. Q. Lu, X. F. Lu. Rational design of bimetal phosphide embedded in carbon nanofibers for boosting oxygen evolution[J]. Journal of Colloid Interface Science, 2023, 657: 83. (共同一作，IF = 8.6)

[15] X. Q. Lu*, J. Li, S. F. Cao*, Y. Y. Hu, C. Y. Yang, Z. X. Chen, S. X. Wei, S. Y. Liu, Z. J. Wang. Constructing N, S and N, P co-coordination in Fe single atom catalyst for high-performance oxygen redox reactions[J]. ChemSusChem, 2023, 16: e202300637. (共同通讯，IF = 8.4)

[16] X. Q. Lu, S. F. Cao, X. F. Wei, S. R. Li, S. X. Wei. Investigation on oxygen reduction reaction mechanism on S doped Fe-NC isolated single atoms sites catalyst[J]. Acta Chimica Sinica, 2020, 78: 1001–1006. (导师一作，IF = 2.5)

博士期间获得的荣誉奖励：

第十八届中国石油大学（华东）学术十杰、研究生国家奖学金

毕业寄语：

学会包容和理解，做一个有爱心和宽容的人。