【1】
Z. Cheng, T. Wan, L.F. Bu, L. Lu*.
Effect of volume fractions of gradient transition layer on mechanical behaviors of nanotwinned Cu.
Acta Materialia, 242 (2023) 118456.  Full Text

【2】
Q.S. Pan, L.J. Jing, L. Lu*.
Enhanced fatigue endurance limit of Cu through low-angle dislocation boundary.
Acta Materialia, 244 (2023) 118542.   Full Text

【3】
Z. Cheng, L.F. Bu, Y. Zhang, H.A. Wu, T. Zhu*, L. Lu*.
Characterization of gradient plastic deformation in gradient nanotwinned Cu.
Acta Materialia, 242 (2023) 118673.   Full Text

【4】
L.F. Bu, Z. Cheng, Y. Zhang, H.A. Wu, T. Zhu, L. Lu*.
Trans-twin dislocations in nanotwinned metals.
Scripta Materialia, 229 (2023) 115348.   Full Text

【5】
T. Wan, Z. Cheng, L. Lu*.
Effect of Component Proportion on Mechanical Behaviors of Laminated Nanotwinned Cu.
Acta Metallurgica Sinica, 59 (2023) 567-676.   Full Text

【6】
Z. Cheng, T. Wan, L. Lu*.
Interface strain gradient enabled high strength and hardening in laminated nanotwinned Cu.
Acta Materialia, 256 (2023) 119138.   Full Text

【7】
Q.S. Pan, M.X. Yang, R. Feng, A.C. Chuang, K. An, P.K. Liaw, X.L. Wu, N.R. Tao, L. Lu*.
Atomic faulting induced exceptional cryogenic strain hardening in gradient-cell-structured alloy.
Science, 382 (2023)185–190.   Full Text

【8】
L.X. Zhang, Q.S. Pan,  L. Lu*.
Revealing the mechanical behavior of homogeneous dislocation cell units in high-entropy alloy.
Materials Research Letters, 11 (2023) 907-914.   Full Text

【9】
Z. Cheng,  L. Lu*.
Fundamental strengthening mechanisms of ordered gradient nanotwinned metals.
Nano Research, DOI: 10.1007/s12274-023-6124.   Full Text

【10】
R.K. Zhao, H.Z. Zhao,  L. Lu*.
Superior fatigue crack growth resistance in bulk Cu with highly oriented nanotwins.
Science China Materiails, 66 (2023) 4251-4257.   Full Text