Ph.D. University of Science and Technology Beijing, Beijing, China

B.S. China University of Mining and Technology-Beijing, Beijing, China

(1) Data-driven high-performance structure and function integrated alloy/coating design;

(2) Research on the service behavior (corrosion, hydrogen embrittlement, etc.) of key materials in new energy area based on high-throughput experiments/computation and machine learning and their multi-scale efficient evaluation;

(3) Theoretical study on electrochemical corrosion/passivation of material surface and interface

(4) Design and service of additive manufacturing alloys

1. L. Wei*, W. M. Qin, J. Y. Chen, et al., L2₁-strengthened face-centered cubic high-entropy alloy with well pitting resistance, Corrosion Science 215 (2023) 111043.

2. L. Wei*, W. M. Qin, Corrosion mechanism of eutectic high-entropy alloy induced by micro-galvanic corrosion in sulfuric acid solution, Corrosion Science 206 (2022) 110525.

3. L. Zhao, L. Wei*, et al., A highly corrosion resistant and nondestructive menthol coating strategy for short-term protection of bronzes, Progress in Organic Coatings 170 (2022) 106947.

4. J. J. Nie, L. Wei*, et al., Corrosion mechanism of additively manufactured 316L stainless steel in 3.5 wt.% NaCl solution, Materials Today Communications 26 (2021), 101648.

5. J. J. Nie¹, L. Wei¹, et al., High-throughput characterization of microstructure and corrosion behavior of additively manufactured SS316L-SS431 graded material, Additive Manufacturing 35 (2020) 101295.

6. Y. Jiang, G. T. Zhang, J. J. Xing, H. Q. Fan, L. Wei^*, et al., In situ growth and protectiveness mechanism of layered double hydroxide/oxide hierarchical structure on copper alloy in 3.5 wt% NaCl solution, Surface & Coatings Technology 397 (2020) 126042.

7. L. Wei, K. Gao, Understanding the general and localized corrosion mechanisms of Cr-containing steels in supercritical CO₂-saturated aqueous environments, Journal of Alloys and Compounds 792 (2019) 328-340.

8. L. Wei, Y. Liu, F. Cheng, Q. Li, Effect of roughness on the general corrosion and pitting of (CoCrFeNi)_0.89(WC)_0.11 high-entropy alloy composite in 3.5 wt.% NaCl solution, Corrosion Science, 146 (2019), 44-57.

9. L. Wei, X. Pang, et al., Effect of flow rate on localized corrosion of X70 steel in supercritical CO₂ environments, Corrosion Science, 136 (2018): 339-351.

10. L. Wei, K. Gao, et al., Corrosion of low alloy steel containing 0.5% chromium in supercritical CO₂-saturated brine and water-saturated supercritical CO₂ environments, Applied Surface Science 440 (2018): 524-534.