Ø 2023
[1] J.X. Hou, J.Y. Zhang, J.X. Zhang, J. Luan, Y.X. Wang, B. Cao, Y. Zhao, Z. Jiao, X.J. Liu, W.W. Song, P.K. Liaw, T. Yang*. “Thermal stability and deformation mechanisms in Ni-Co-Fe-Cr-Al-Ti-Nb-type nanoparticle-strengthened high-entropy alloys”, Journal of Materials Science & Technology, 167, 20 December 2023, pp 171-183, doi: https://doi.org/10.1016/j.jmst.2023.05.044. (A+, IF: 10.32, Ranking: 2.53%)
[2] F. Li, K. Huang*, J. Wang, K. Yuan, Y. Yang, Y. Liu, X. Zhou, K. Kong, T. Yang, J. He, C. Liu, H. Ao, F. Liu*, Q. Liu*, T. Tang*, S. Yang*, “A dual functional Ti-Ga alloy: inhibiting biofilm formation and osteoclastogenesis differentiation via disturbing iron metabolism”, Biomaterials Research, 27(1), 29 March 2023, pp 24, doi: https://doi.org/10.1186/s40824-023-00362-1. (N.A.)
[3] B. Xiao, J. Zhang, S. Liu, Y. Zhao, L. Xu, C.T. Liu, T. Yang*, “Off-stoichiometry-guided design of high-strength chemically complex intermetallic-based alloys with outstanding ductility”, Journal of Materials Science & Technology, 160, 10 October 2023, pp 28-33, doi: https://doi.org/10.1016/j.jmst.2023.02.033. (A+, IF: 10.32, Ranking: 2.53%)
[4] Y.H. Zhou, S.F. Liu, D. Chen, Q.F. Wu*, B. Xiao, F. He, Z.J. Wang, T. Yang, J.J. Kai*, “Tailoring the radiation tolerance of eutectic high-entropy alloy via phase-composition control”, Journal of Nuclear Materials, 584, October 2023, pp 154561, doi: https://doi.org/10.1016/j.jnucmat.2023.154561. (A+, IF: 3.555, Ranking: 5.88%)
[5] S. Liu, W. Xiao, B. Xiao, J. Ju, Y. Zhou, Y. Zhao, Z. Jiao, J. Luan, Q. Li, J. Hou, J.J. Kai*, T. Yang*, “Simultaneously improving mechanical properties and oxidation resistance of Ti-bearing high-entropy superalloys at intermediate temperature via silicon addition”, Journal of Materials Science & Technology, 157, 10 September 2023, pp 30-41, doi: https://doi.org/10.1016/j.jmst.2023.01.044. (A+, IF: 10.32, Ranking: 2.53%)
[6] J. Ju, R. Zan, Z. Shen, C. Wang*, P. Peng, J. Wang*, B. Sun, B. Xiao, Q. Li, S. Liu, T. Yang*, “Remarkable bioactivity, bio-tribological, antibacterial, and anti-corrosion properties in a Ti-6Al-4V-xCu alloy by laser powder bed fusion for superior biomedical implant applications”, Chemical Engineering Journal, 471, 1 September 2023, pp 144656, doi: https://doi.org/10.1016/j.cej.2023.144656. (A+, IF: 16.744, Ranking: 2.82%)
[7] Z. Yao, Z. Chen, M. Ouyang, X. Chen, M. Yang, Z. Li*, C. Wang*, T. Yang, R. Shi, Z. Zhong, X. Liu*, “Accelerated discovery of composition-carbide-hardness linkage of Stellite alloys assisted by image recognition”, Scripta Materialia, 234, September 2023, pp 115539, doi: https://doi.org/10.1016/j.scriptamat.2023.115539. (A+, IF: 6.302, Ranking: 8.86%)
[8] B. Xiao, H. Dong, T. Yang, S. Liu, S. Jin, B. Cao, Y. Han, L. Zhao, X. Yang, G. Sha, L. Xu*, “Creep-induced heterogeneous precipitation of Laves phase with two morphologies in tempered martensite ferritic steels”, Materials Research Letters, 11(8), 06 May 2023, pp 630-637, doi: https://doi.org/10.1080/21663831.2023.2208613. (A, IF: 8.516, Ranking: 19.42%)
[9] M. Yang, C. Huang, Z. Yao, Z. Yang, Z. Li, C. Wang*, H. Wu, T. Yang, Y. Zhao, S. Wang*, X. Liu*, "Development of a high-strength Fe–12Mn maraging steel via designing lath interfacial and intragranular nanostructures", Materials Science and Engineering: A, 07 July 2023, pp 145280, doi: https://doi.org/10.1016/j.msea.2023.145280.
[10] J. Zhang, Z. Zhao, Q. Li, J. Luan, C.-T. Liu, Y. Zhao*, T. Yang*, "Unveiling the unique bifunctionality of L12-structured nanoprecipitates in a FeCoNiAlTi-type high-entropy alloy", Advanced Powder Materials, 2(3), July 2023, pp 100113, doi: https://doi.org/10.1016/j.apmate.2023.100113. (N. A.)
[11] M. Yang, C. Huang, Z. Yao, Z. Yang, Z. Li, C. Wang*, H. Wu, T. Yang, Y. Zhao, S. Wang*, X. Liu*, "An ultra-high-strength 12Mn maraging steel realized via nanoscale heterostructure engineering", Materials Letters, 349, 15 October 2023, pp 134770, doi: https://doi.org/10.1016/j.matlet.2023.134770. (B+, IF: 3.574, Ranking: 35.40%)
[12] Y. Ren, Z. Huang, Y. Wang, Q. Zhou*, T. Yang, Q. Li, Q. Jia, H. Wang*, "Friction-induced rapid amorphization in a wear-resistant (CoCrNi)88Mo12 dual-phase medium-entropy alloy at cryogenic temperature", Composites Part B: Engineering, 263, 15 August 2023, pp 110833, doi: https://doi.org/10.1016/j.compositesb.2023.110833. (A+, IF: 11.322, Ranking: 2.17%)
[13] G. Huang, T. Chou, S. Liu, B. Xiao, J. Ju, J. Gan, T. Yang*, P. Zhang, J. Yang, C. Lu*, F. Meng*, "Unveiling the microstructure evolution and mechanical properties of submerged friction stir welded joint of fine-grained NiCoCr medium entropy alloy", Materials Characterization, 200, June 2023, pp 112903, doi: https://doi.org/10.1016/j.matchar.2023.112903. (A, IF: 4.537, Ranking: 13.92%)
[14] J. Ju, Z. Shen*, J. Li, B. Xiao, Y. Zhou, Q. Li, W. Xiao, Y. Li, X. Zeng, J. Wang, T. Yang*, "Unraveling the origin of the excellent high-temperature oxidation resistance of an AlCrFeNiTi complex concentrated alloy", Corrosion Science, 217, June 2023, pp 111116, doi: https://doi.org/10.1016/j.corsci.2023.111116. (A+, IF: 7.72, Ranking: 5.06%)
[15] J. Ju, S. Liu, J. Li, X. Zeng, J. Wang, B. Sun, Z. Shen*, T. Yang*, "Microstructural understanding of high-temperature oxidation behaviour of selective laser melted Inconel 718 superalloy in CO2 atmosphere", Journal of Materials Research and Technology, 25, July–August 2023, pp 887-904, doi: https://doi.org/10.1016/j.jmrt.2023.05.216. (A, IF: 6.267, Ranking: 10.13%)
[16] H. Kong, T. Yang, R. Chen, Z. Jiao, T. Zhang, B. Cao, J. Luan, S. Liu, A. Wang, J.C. Huang, X. Wang, C-T. Liu*, "Design of ultra-strong but ductile iron-based alloys with low supersaturations", Acta Materialia, 256, 01 September 2023, pp 119000, doi: https://doi.org/10.1016/j.actamat.2023.119000. (A+, IF: 9.209, Ranking: 3.8%)
[17] X. Zhang, Y. Gui, M. Lai, X. Lu, J. Gu, F. Wang, T. Yang, Z. Wang*, M. Song*, "Enhanced strength-ductility synergy of medium-entropy alloys via multiple level gradient structures", International Journal of Plasticity, 164, May 2023, pp 103592, doi: https://doi.org/10.1016/j.ijplas.2023.103592. (A+, IF: 8.5, Ranking: 3.62%)
[18] F. Li, J. Wang*, K. Huang, Y. Liu, Y. Yang, K. Yuan, J. He, C. Liu, T. Yang, D. Zeng, M. Fan, P. Zheng*, H. Yang*, Q. Huang*, S. Yang*, "Ga-containing Ti alloy with improved osseointegration for bone regeneration: In vitro and in vivo studies", Composites Part B: Engineering, 256, 01 May 2023, pp 110643, doi: https://doi.org/10.1016/j.compositesb.2023.110643. (A+, IF: 11.322, Ranking: 2.17%)
[19] T. Chou, W. Li*, H. Chang, B. Cao, J. Luan, J. Huang, T. Yang*, "Suppressing temperature-dependent embrittlement in high-strength medium-entropy alloy via hetero-grain/precipitation engineering", Scripta Materialia, 229, May 2023, pp 115377, doi: https://doi.org/10.1016/j.scriptamat.2023.115377. (A+, IF: 6.302, Ranking: 8.86%)
[20] Y. Zhao*, W. Xiao, Z. Zhao, Q. Li, J. Cui, J. Luan, C. Liu, P. Liaw, T. Yang*, "A Co-rich chemically complex intermetallic alloy with extraordinary strength-ductility synergy", Scripta Materialia, 229, May 2023, pp 115371, doi: https://doi.org/10.1016/j.scriptamat.2023.115371. (A+, IF: 6.302, Ranking: 8.86%)
[21] Y. Zhao*, F. Meng, T. Yang, J. Luan, S. Liu, G. Yeli, W. Lin, W. Liu, X. Liu, C. Liu, "Enhanced helium ion irradiation tolerance in a Fe-Co-Ni-Cr-Al-Ti high-entropy alloy with L12 nanoparticles", Journal of Materials Science & Technology, 143, 20 April 2023, pp 169-177, doi: https://doi.org/10.1016/j.jmst.2022.09.053. (A+, IF: 10.32, Ranking: 2.53%)
[22] L. Li, J. Chuan, S. Xu, C. Huang, G. Han, T. Yang, B. Deng, W. Bai, R. Chen*, "Enhanced joint strength between TC4 alloy and CFRTP via in-situ constructing sandwich interface with interlocking structure and multi-chemical bonding", Composite Structures, 310, 15 April 2023, pp 116769, doi: https://doi.org/10.1016/j.compstruct.2023.116769. (A+, IF: 6.603, Ranking: 5.80%)
[23] C. Tan*, Q. Li, X. Yao*, L. Chen, J. Su, F.L. Ng, Y. Liu, T. Yang*, Y. Chew*, C.T. Liu, T. DebRoy, "Machine Learning Customized Novel Material for Energy‐Efficient 4D Printing", Advanced Science, 10(10), 05 February 2023, pp 2206607, doi: https://doi.org/10.1002/advs.202206607. (A+, IF: 17.521, Ranking: 6.09%)
[24] Z. Li, S. Ma, S. Zhao*, W. Zhang, F. Peng, Q. Li, T. Yang*, C. Y. Wu, D. Wei*, Y.C. Chou, P. K. Liaw, Y. Gao*, Z. Wu* "Achieving superb strength in single-phase FCC alloys via maximizing volume misfit", Materials Today, 63, March 2023, pp 108-119, doi: https://doi.org/10.1016/j.mattod.2023.02.012. (A+, IF: 26.943, Ranking: 2.90%)
[25] W. Xiao, S. Liu, Y. Zhao, J. Kai, X. Liu, T. Yang*, "A novel single-crystal L12-strengthened Co-rich high-entropy alloy with excellent high-temperature strength and antioxidant property", Journal of Materials Research and Technology, 23, March–April 2023, pp 2343-2350, doi: https://doi.org/10.1016/j.jmrt.2023.01.182. (A, IF: 6.267, Ranking: 10.13%)
[26] Mujin Yang, Chao Huang, Jiajia Han*, Haichen Wu*, Y. Zhao, T. Yang, Shenbao Jin, Chenglei Wang, Zhou Li, Ruiying Shu, Cuiping Wang, Huanming Lu, Gang Sha*, Xingjun Liu*. “Development of the high-strength ductile ferritic alloys via regulating the intragranular and grain boundary precipitation of G-phase”, Journal of Materials Science & Technology, 136, 28 Aug 2022, pp 180-199. doi: https://doi.org/10.1016/j.jmst.2022.07.029. (A+, IF: 10.32, Ranking: 2.53%)
[27] S. Liu, G. Yeli*, D. Chen, W. Lin, Y. Zhao, J. Luan, S. Zhao, T. Yang, J. j. Kai*, "NiCoCr-based medium-entropy alloys with superior resistance to radiation hardening and helium cavity growth", Journal of nuclear materials, 574, February 2023, pp 154196. doi: https://doi.org/10.1016/j.jnucmat.2022.154196. (A+, IF: 3.555, Ranking: 5.88%)
[28] B Xiao, S. Liu, J. Zhang, Y. Zhou, Q. Li, J. Hou, W. Xiao, J. Zhang, Y. Zhao, C.T. Liu, L. Xu, T. Yang*, "Environmental embrittlement behavior of high-entropy alloys", Microstructures, 3(1), 10 January 2023, pp 2023006, doi: http://dx.doi.org/10.20517/microstructures.2022.26. (N.A.)
[29] Z. Yao, X. Jia, J. Yu, M. Yang, C. Huang, Z. Yang, C. Wang*, T. Yang, S. Wang, R. Shi*, J. Wei, X. Liu*"Rapid accomplishment of strength/ductility synergy for additively manufactured Ti-6Al-4V facilitated by machine learning", Materials & Design, 225, January 2023, pp 111559, doi: https://doi.org/10.1016/j.matdes.2022.111559. (A, IF: 9.417, Ranking: 16.81%)
Ø 2022
[1] B. Xiao, J. Luan, S. Zhao, L. Zhang, S. Chen, Y. Zhao, L. Xu, C.T. Liu, J. J. Kai*, T. Yang*. “Achieving thermally stable nanoparticles in chemically complex alloys via controllable sluggish lattice diffusion”, Nature communications, 13 (1), 18 Aug 2022, pp 1-8. doi: https://doi.org/10.1038/s41467-022-32620-6. (A+, IF: 17.694, Ranking: 8.22%)
[2] Q. Li, J. Mo, S. Ma, F. Duan, Y. Zhao, S. Liu, W. Liu*, S. Zhao*, C.T. Liu, P.K. Liaw, T. Yang*. “Defeating hydrogen-induced grain-boundary embrittlement via triggering unusual interfacial segregation in FeCrCoNi-type high-entropy alloys”, Acta Materialia, 02 October 2022, pp 118410. doi: https://doi.org/10.1016/j.actamat.2022.118410. (A+, IF: 9.209, Ranking: 3.8%)
[3] J. Hou, Y. Tan, S. Liu, J. Zhang, W. Xiao, H. Kong, Q. Li, B. Cao, J. Luan, Y. Zhao, J.J. Kai, T.Yang*. “High-temperature oxidation behaviors and mechanisms in newly designed L12-strengthened high-entropy alloys”, Corrosion Science, 208, November 2022, pp 110665. doi: https://doi.org/10.1016/j.corsci.2022.110665. (A+, IF: 7.72, Ranking: 5.06%)
[4] J. Hou, S. Liu, B. Cao, J. Luan, Y. Zhao*, Z. Chen, Q. Zhang, X. Liu, C.T. Liu, J.J. Kai, T. Yang*. “Designing nanoparticles-strengthened high-entropy alloys with simultaneously enhanced strength-ductility synergy at both room and elevated temperatures”, Acta Materialia, 238, 01 October 2022, pp 118216. doi: https://doi.org/10.1016/j.actamat.2022.118216. (A+, IF: 9.209, Ranking: 3.8%)
[5] W. Xu*, Z. Xiong, Z. Li, X. Gao, W. Li, T. Yang*, X. Li*, L. Vitos, C.T. Liu. “Atomic origins of the plastic deformation micro-mechanisms of γ/γ’ FeCoNiAlTi high-entropy alloys”, International Journal of Plasticity, 158, November 2022, pp 103439. doi: https://doi.org/10.1016/j.ijplas.2022.103439. (A+, IF: 8.5, Ranking: 3.62%)
[6] B. Cao, D. Wei, X. Zhang, H. Kong, Y. Zhao, J. Hou, J. Luan, Z. Jiao, Y. Liu, T. Yang*, C. T. Liu*, "Intermediate temperature embrittlement in a precipitation-hardened high-entropy alloy: The role of heterogeneous strain distribution and environmentally assisted intergranular damage", Materials Today Physics, 24, 04 March 2022, doi: https://doi.org/10.1016/j.mtphys.2022.100653. (A+, IF: 11.02, Ranking: 8.7%)
[7] B. Cao, W. Xu, C. Yu, S. Wu, H. Kong, Z. Ding, T. Zhang, J. Luan, B. Xiao, Z. Jiao, Y. Liu, T. Yang*, C.T. Liu*, "L12-strengthened multicomponent Co-Al-Nb-based alloys with high strength and matrix-confined stacking-fault-mediated plasticity", Acta Materialia, 229, 16 February 2022, doi: https://doi.org/10.1016/j.actamat.2022.117763. (A+, IF: 9.209, Ranking: 3.8%)
[8] C. Wang, X. Huang, M. Yang*, J. Han*, Z. Yao, T. Yang, Y. Zhao, W. Liu, L. Huang, C. Huang, S. Pan, Z. Li, C. Wang, Y. Chen, C. Yang, X. Liu*. “Development of novel ferritic steels strengthened by the Co16X6Si7-G phase: A theoretical and experimental study”, Materials & Design, 222, 01 Oct 2022, pp 111021. doi: https://doi.org/10.1016/j.matdes.2022.111021. (A, IF: 9.417, Ranking: 16.81%)
[9] L. Romero-Resendiz, M. El-Tahawy, T. Zhang, M. Rossi, D. Marulanda-Cardona, T. Yang, V. Amigó-Borrás, Y. Huang, H. Mirzadeh, I.J. Beyerlein, J.C. Huang, T.G. Langdon, Y.T. Zhu*. “Heterostructured stainless steel: Properties, current trends, and future perspectives”, Materials Science and Engineering: R: Reports, 150,1 August 2022, pp 100691. doi: https://doi.org/10.1016/j.mser.2022.100691. (A+, IF: 33.667, Ranking: 2.03%)
[10] Y. Zhou, P. Chen, D. Huang, Z. Wu, T. Yang, J.J. Kai, M. Yan*. “Micro-arc oxidation for improving high-temperature oxidation resistance of additively manufacturing Ti2AlNb”, Surface and Coatings Technology, 445, 15 September 2022, pp 128719. doi: https://doi.org/10.1016/j.surfcoat.2022.128719. (A, IF: 4.865, Ranking: 26.3%)
[11] J. Fang, W. Liu, J. Luan, T. Yang, M. Fu*, Z. Jiao*. “Dual effects of pre-strain on continuous and discontinuous precipitation of L12-strengthened high-entropy alloys”, Journal of Alloys and Compounds, 925, 5 December 2022, pp 166730. doi: https://doi.org/10.1016/j.jallcom.2022.166730. (A+, IF: 6.371, Ranking: 6.33%)
[12] L. He, Z. Li, J. Zhang, F. Peng*, S. Zhao, H. Chen, H. Yan, T. Yang, S. Chen, B. Liu*, Y. Ma*, Z. Wu*. “Softening Al13Fe4 intermetallic compound through Fe-site multi-principal-element doping”, Scripta Materialia, 218, September 2022, pp 114811. doi: https://doi.org/10.1016/j.scriptamat.2022.114811. (A+, IF: 6.302, Ranking: 8.86%)
[13] S. Liu, W. Kai*, J. Hou, Y. Zhao, Q. Li, C. Yang, T. Yang*, J. J. Kai*. “Oxidation behaviors and mechanical properties of L12-strengthened high-entropy alloys at 700 ℃”, Corrosion Science, 206, September 2022, pp 110499. doi: https://doi.org/10.1016/j.corsci.2022.110499. (A+, IF: 7.72, Ranking: 5.06%)
[14] J. Fang, W. Liu, J. Luan, T. Yang, Y. Wu, M. Fu*, Z. Jiao*. “Competition between continuous and discontinuous precipitation in L12-strengthened high-entropy alloys”, Intermetallics, 149, October 2022, pp 107655. doi: https://doi.org/10.1016/j.intermet.2022.107655. (A, IF: 4.075, Ranking:18.99%)
[15] J. Zhang, B. Xiao, Q. Li, B. Cao, J. Hou, S. Liu, J. Zhang, W. Xiao, J. Luan, Y. Zhao, C.T. Liu, T. Yang*, "Temperature-dependent microstructural evolutions and deformation mechanisms of (Ni2Co2FeCr)92Al4Nb4 high-entropy alloys", Journal of Alloys and Compounds, 918, 26 May 2022, doi: https://doi.org/10.1016/j.jallcom.2022.165597. (A+, IF: 6.371, Ranking: 6.33%)
[16] J. Huang, W. Li, J. He, R. Zhou, T. H. Chou, T. Yang, C. T. Liu, W. Zhang, Y. Liu*, J. C. Huang*, "Dual heterogeneous structure facilitating an excellent strength-ductility combination in an additively manufactured multi-principal-element alloy", Materials Research Letters, 10(9), 03 May 2022, pp 575-584, doi: https://doi.org/10.1080/21663831.2022.2067790. (A, IF: 8.516, Ranking: 19.42%)
[17] Y. Wu, X. Zhao, Q. Chen, C. Yang, M. Jiang, C. Liu, Z. Jia, Z. Chen, T. Yang, Z. Liu*, "Strengthening and fracture mechanisms of a precipitation hardening high-entropy alloy fabricated by selective laser melting", Virtual and Physical Prototyping, 17(3), 16 February 2022, pp 451-467, doi: https://doi.org/10.1080/17452759.2022.2037055. (A+, IF: 10.962, Ranking: 4.9%)
[18] Z. Jia, Y. Zhao, Q. Wang, F. Lyu, X. Tian, S. Liang, L. Zhang, J. Luan, Q. Wang, L. Sun, T. Yang*, B. Shen*, "Nanoscale Heterogeneities of Non-Noble Iron-Based Metallic Glasses toward Efficient Water Oxidation at Industrial-Level Current Densities", ACS Applied Materials and Interfaces, 14(8), 17 February 2022, pp 10288–10297, doi: https://doi.org/10.1021/acsami.1c22294. (A, IF: 10.383, Ranking: 14.20%)
[19] Z. Yao, T. Yang, M. Yang, X. Jia, C. Wang, J. Yu, Z. Li, H. Han, W. Liu, G. Xie, S. Yang, Q. Zhang, C. Wang, S. Wang, X. Liu*, "Martensite colony engineering: A novel solution to realize the high ductility in full martensitic 3D-printed Ti alloys", Materials & Design, 215, 03 February 2022, doi: https://doi.org/10.1016/j.matdes.2022.110445. (A, IF: 9.417, Ranking: 16.81%)
[20] Z. An, S. Mao*, T. Yang, Y. Liu, Y. Chen, X. Yang, S. Liu, X. Wang, Q. Deng, Z. Zhang, X. Han*, "Simultaneously enhanced oxidation resistance and mechanical properties in a novel lightweight Ti2VZrNb0.5Al0.5 high-entropy alloy", Science China Materials, 13 May 2022, doi: https://doi.org/10.1007/s40843-022-2045-4. (A, IF: 8.64, Ranking: 18.84%)
[21] H. Kong, T. Yang, T. Zhang, B. Cao, C. T. Liu*, "Nanostructured steels foradvanced structural applications", Materials Futures, 1(1), 12 January 2022, doi: https://doi.org/10.1088/2752-5724/ac376d. (N.A.)
[22] H. Chen, L. Wang, L. He, Z. Li, H. Yan, T. Yang, Y. Ma, F. Peng, Z. Wu*, "Oxidation behavior of (NbTaZrW)C high-entropy carbide at 800–1000 °C", Materials Characterization, 189, 28 April 2022, doi: https://doi.org/10.1016/j.matchar.2022.111932. (A, IF: 4.537, Ranking: 13.92%)
[23] J. Fang, W. Liu, T. Yang, Y. Wu, Z. Jiao*, " Multicomponent Precipitation and Strengthening in Intermetallic-Strengthened Alloys", Frontiers in Materials, 9, 28 June 2022, doi: https://doi.org/10.3389/fmats.2022.931098. (B+, IF: 3.985, Ranking: 46.09%)
[24] T. Chou, W. Li*, H. Chang, X. Du, W. Chuang, T. Yang*, Y. Zhu, J. Huang*." Quantitative analysis of hetero-deformation induced strengthening in heterogeneous grain structure", International Journal of Plasticity. 159, December 2022, doi: https://doi.org/10.1016/j.ijplas.2022.103482 . (A+, IF: 8.5, Ranking: 3.62%)
[25] W. Lin, Y. Li, S. de Graaf, G. Wang, J. Lin, H. Zhang, S. Zhao, D. Chen, S. Liu, J. Fan, B. J. Kooi, Yang Lu, T. Yang*, C. Yang, C. T. Liu, J. Kai*. “Creating two-dimensional solid helium via diamond lattice confinement”, Nature Communications, 13, October 2022, doi: https://doi.org/10.1038/s41467-022-33601-5 . (A+, IF: 17.694, Ranking: 8.22%)
[26] W. Xiao, Y. Zhao*, T. Yang. “Cubic Ordered Intermetallic Alloys”, Advanced Multicomponent Alloys: From Fundamentals to Applications. Singapore: Springer Nature Singapore, 20 September 2022, pp 91-103.doi: https://doi.org/10.1007/978-981-19-4743-8_4. (N.A.)
[27] J. Zhang, T. Yang, and S. Yang*. "Abnormal Grain Growth and Single Crystals in Multicomponent Shape-Memory Alloys." Advanced Multicomponent Alloys: From Fundamentals to Applications. Singapore: Springer Nature Singapore, 20 September 2022, pp 269-285. doi: https://doi.org/10.1007/978-981-19-4743-8_11 . (N.A.)
[28] J. Hou, B. Cao, B. Xiao, Z. Jiao, T. Yang*, "Compositionally complex coherent precipitation-strengthened high entropy alloys: a critical review", Rare Metals, 41(6), 17 March 2022, pp 2002–2015, doi: https://doi.org/10.1007/s12598-021-01953-4. (A+, IF: 6.318, Ranking: 7.59%)
[29] X. Chen, X. Zhuang, J. Mo, J. He, T. Yang, X. Zhou, W. Liu, " Enhanced Resistance to Hydrogen Embrittlement in a CrCoNi-Based Medium-Entropy Alloy via Grain Boundary Engineering: A Case Study of Boron Segregation", Materials Research Letters, 10(4), 18 February 2022, pp 278-286, doi: https://doi.org/10.1080/21663831.2022.2033865. (A, IF: 8.516, Ranking: 19.42%)
[30] L. Yuan, J. Xiong, J. Ren, T. Yang, X. Xiao, Y. Ma, J. Luan, J. Li, "Ultrastrong and ductile transient liquid phase (TLP) bonding joints reinforced by ordered multiprecipitates", Composites Part B: Engineering, 231(Part B), 11 December 2021, doi: https://doi.org/10.1016/j.compositesb.2021.109568. (A+, IF: 11.322, Ranking: 2.17%)
[31] Y. Zhou, Z. Zhang, D. Wang, W. Xiao, J. Ju, S. Liu, B. Xiao, M. Yan, T. Yang*. “New trends in additive manufacturing of high-entropy alloys and alloy design by machine learning: From single-phase to multiphase systems”, Journal of Materials Informatics. 2,17 Nov 2022, pp 1-21, https://dx.doi.org/10.20517/jmi.2022.27 (N.A.)
[32] T. Yang*, B. Cao, T. Zhang, Y. Zhao, W. Liu, H. Kong, J. Luan, J.J. Kai, W. Kuo, C.T. Liu*, "Chemically complex intermetallic alloys: A new frontier for innovative structural materials", Materials Today, 52, 28 December 2021, pp 161-174, doi: https://doi.org/10.1016/j.mattod.2021.12.004. (A+, IF: 26.943, Ranking: 2.9%)
[33] Y. Zhao*, Y. Li, G. Yeli, J. Luan, S. Liu, W. Lin, D. Chen, X. Liu, J.J. Kai, C.T. Liu, T. Yang*, "Anomalous precipitate-size-dependent ductility in multicomponent high-entropy alloys with dense nanoscale precipitates", Acta Materialia, 223, 13 November 2021, doi: https://doi.org/10.1016/j.actamat.2021.117480. (A+, IF: 9.209, Ranking: 3.8%)
[34] H. Duan, B. Liu, A. Fu, J. He, T. Yang, C. T. Liu, Y. Liu*, "Segregation enabled outstanding combination of mechanical and corrosion properties in a FeCrNi medium entropy alloy manufactured by selective laser melting", Journal of Materials Science and Technology, 99, 07 July 2021, pp 207-214, doi: https://doi.org/10.1016/j.jmst.2021.05.018. (A+, IF: 10.32, Ranking: 2.53%)
[35] B. Zhou, C. Yu, S. Qiu, T. Yang, J. Luan, X. Xu, Z. Luo, Z. Jiao, "Atomistic study of Al partitioning and its influence on nanoscale precipitation of Cu-rich nanocluster-strengthened steels", Materials Characterization, 184, 29 December 2021, doi: https://doi.org/10.1016/j.matchar.2021.111687. (A, IF: 4.537, Ranking: 13.92%)
[36] S. Su, Z. Ning, Y. Huang, T. Yang, K. Wang, M. Jiang, J. Sun, S. Jiang, "Effect of strain rate on fracture reliability of Cu45Zr45Co10 amorphous alloy microwires by statistical analyses", Journal of Alloys and Compounds, 898, 26 November 2021, doi: https://doi.org/10.1016/j.jallcom.2021.162951. (A+, IF: 6.371, Ranking: 6.33%)
[37] T. Zhang, J. Zhu, T. Yang, J. Luan, H. Kong, W. Liu, B. Cao, S. Wu, D. Wang, Y. Wang, C. T. Liu, "A new α + β Ti-alloy with refined microstructures and enhanced mechanical properties in the as-cast state", Scripta Materialia, 207, 11 September 2021, doi: https://doi.org/10.1016/j.scriptamat.2021.114260. (A+, IF: 6.302, Ranking: 8.86%)
Ø 2021
[1] T. Zhang, Z. Huang, T. Yang*, H. Kong, J. Luan, Anding Wang, Dong Wang, Way Kuo, Yunzhi Wang*, Chain-Tsuan Liu*, "In situ design of advanced titanium alloy with concentration modulations by additive manufacturing", Science, 374(6566), 21 October 2021, pp 478-482, doi: https://doi.org/10.1126/science.abj3770. (A+, IF: 63.798, Ranking: 2.74%)
[2] B. Cao, H. Kong, Z. Ding, S. W. Wu, J. Luan, Z. Jiao, J. Lu, C. T. Liu, T. Yang*, "A novel L12-strengthened multicomponent Co-rich high-entropy alloy with both high γ ′-solvus temperature and superior high-temperature strength", Scripta Materialia, 199, 11 March 2021, doi: https://doi.org/10.1016/j.scriptamat.2021.113826. (A+, IF: 6.302, Ranking: 8.86%)
[3] B. Xiao, S. D. Yadav, L. Zhao, Z. Tang, Y. Han, X. Yang, J. J. Kai, T. Yang*, L. Xu*, "Deep insights on the creep behavior and mechanism of a novel G115 steel: Micromechanical modeling and experimental validation", International Journal of Plasticity, 147, 30 September 2021, doi: https://doi.org/10.1016/j.ijplas.2021.103124. (A+, IF: 8.5, Ranking: 3.62%)
[4] B. Cao, Y. Zhao, T. Yang*, C. T. Liu, "L12-Strengthened Co-Rich Alloys for High-Temperature Structural Applications: A Critical Review", Advanced Engineering Materials, 23(10), 06 September 2021, doi: https://doi.org/10.1002/adem.202100453. (B+, IF: 4.122, Ranking: 42.32%)
[5] B. Cao, C. Wang, T. Yang*, C. T. Liu*, "Interstitially strengthened metastable FeCoCr-based medium-entropy alloys with both high strength and large ductility", Applied Physics Letters, 119(5), 02 August 2021, doi: https://doi.org/10.1063/5.0058011. (A+, IF: 3.971, Ranking: 31.06%)
[6] F. He, Z. Yang, S. Liu, D. Chen, W. Lin, T. Yang, D. Wei, Z. Wang, J. Wang, J. J. Kai*, "Strain partitioning enables excellent tensile ductility in precipitated heterogeneous high-entropy alloys with gigapascal yield strength", International Journal of Plasticity, 144, 03 June 2021, doi: https://doi.org/10.1016/j.ijplas.2021.103022. (A+, IF: 8.5, Ranking: 3.62%)
[7] S. Wu, T. Yang, B. Cao, J. Luan, Y. Jia, L. Xu, Y. Mu, T. Zhang, H. Kong, X. Tong, J. Peng, G. Wang, Q. Zhai, J. Lu, C.T. Liu*, "Multicomponent Ni-rich high-entropy alloy toughened with irregular-shaped precipitates and serrated grain boundaries", Scripta Materialia, 204, 17 July 2021, doi: https://doi.org/10.1016/j.scriptamat.2021.114066. (A+, IF: 6.302, Ranking: 8.86%)
[8] W. Lin, D. Chen , C. Dang, P. Yu, G. Wang, J. Lin, F. Meng, T. Yang, Y. Zhao, S. Liu, J. Du, G. Yeli, C. T. Liu, Y. Lu*, S. Ogata*, J. J. Kai*. "Highly pressurized helium nanobubbles promote stacking-fault-mediated deformation in FeNiCoCr high-entropy alloy", Acta Materialia, 210, 27 March 2021, pp 116843. doi: https://doi.org/10.1016/j.actamat.2021.116843. (A+, IF: 9.209, Ranking: 3.8%)
[9] W. LI, T. H. Chou, T. Yang, W. Chuang, J. Huang*, J. Luan, X. Zhang, X. Huo, H. Kong, Q. He, X. Du, C. T. Liu, F. Chen. "Design of ultrastrong but ductile medium-entropy alloy with controlled precipitations and heterogeneous grain structures", Applied Materials Today, 23, 15 April 2021, pp 101037. doi: https://doi.org/10.1016/j.apmt.2021.101037. (A, IF: 8.663, Ranking: 18.55%)
[10] B. Cao, H. Kong, L. Fan, J. Luan, Z. Jiao, J.J. Kai, T. Yang*, C.T. Liu*. "Heterogenous columnar-grained high-entropy alloys produce exceptional resistance to intermediate-temperature intergranular embrittlement", Scripta Materialia, 194, 18 November 2020, doi: https://doi.org/10.1016/j.scriptamat.2020.11.007. (A+, IF: 6.302, Ranking: 8.86%)
[11] B. Zhou, T. Yang, G. Zhou, H. Wang, J. Luan, Z. Jiao*, "Mechanisms for suppressing discontinuous precipitation and improving mechanical properties of NiAl-strengthened steels through nanoscale Cu partitioning", Acta Materialia, 205, 16 December 2020, pp 116561. doi: https://doi.org/10.1016/j.actamat.2020.116561. (A+, IF: 9.209, Ranking: 3.8%)
[12] Z. An, S. Mao, T. Yang, C. T. Liu, B. Zhang, E. Ma, H. Zhou, Z. Zhang, L. Wang, X. Han, "Spinodal-modulated solid solution delivers a strong and ductile refractory high-entropy alloy", Materials Horizons, 8(3), 12 December 2020, pp 948-955, doi: https://doi.org/10.1039/d0mh01341b. (A+, IF: 15.717, Ranking: 6.67%)
Ø 2020
[1] B. Cao, T. Yang, L. Fan, J. Luan, Z. Jiao, C. T. Liu*. "Refractory alloying additions on the thermal stability and mechanical properties of high-entropy alloys". Materials Science and Engineering A, 797, 10 August 2020, pp 140020. doi: https://doi.org/10.1016/j.msea.2020.140020. . (A, IF: 6.044, Ranking: 11.39%)
[2] B. Cao, C. Wang, T. Yang, C.T. Liu*. "Cocktail effects in understanding the stability and properties of face-centered-cubic high-entropy alloys at ambient and cryogenic temperatures", Scripta Materialia, 187, 22 June 2020, pp 250-255, doi: https://doi.org/10.1016/j.scriptamat.2020.06.008. (A+, IF: 6.302, Ranking: 8.86%)
[3] H. Kong, T. Yang, R. Chen, S.Q. Yue, T. Zhang, B. Cao, C. Wang, W.Liu, J. Luan, Z. Jiao, B. Zhou, L. Meng, A. Wang, C.T. Liu*. "Breaking the strength-ductility paradox in advanced nanostructured Fe-based alloys through combined Cu and Mn additions", Scripta Materialia, 186, 05 June 2020, pp 213-218, doi: https://doi.org/10.1016/j.scriptamat.2020.05.008. (A+, IF: 6.302, Ranking: 8.86%)
[4] L. Fan, T. Yang, J. Luan, Z. Jiao*. "Control of discontinuous and continuous precipitation of γʹ-strengthened high-entropy alloys through nanoscale Nb segregation and partitioning", Journal of Alloys and Compounds, 832, 25 March 2020, pp 154903. doi: https://doi.org/10.1016/j.jallcom.2020.154903. (A+, IF: 6.371, Ranking: 6.33%)
[5] L. Fan, T. Yang, Y. Zhao, J. Luan, G. Zhou, H. Wang, Z. Jiao*, C. T. Liu*, "Ultrahigh strength and ductility in newly developed materials with coherent nanolamellar architectures", Nature Communications, 11, 07 December 2020, pp 1-8. doi: https://doi.org/10.1038/s41467-020-20109-z. (A+, IF: 17.694, Ranking: 8.22%)
[6] T. Yang, Y. Zhao, B. Cao, J.J. Kai, C.T. Liu, "Towards superior mechanical properties of hetero-structured high-entropy alloys via engineering multicomponent intermetallic nanoparticles", Scripta Materialia, 183, 20 March 2020, pp 39-44, doi: https://doi.org/10.1016/j.scriptamat.2020.03.023. (A+, IF: 6.302, Ranking: 8.86%)
[7] T. Yang, Y. Zhao, W. Li, C. Yu, J. Luan, D. Lin, L. Fan, Z. Jiao, W. Liu, X. Liu, J. J. Kai, J. C. Huang, C. T. Liu, "Ultrahigh-strength and ductile superlattice alloys with nanoscale disordered interfaces", Science, 369(6502), 24 July 2020, pp 427-432. doi: 10.1126/science.abb68. (A+, IF: 63.798, Ranking: 2.74%)
[8] X. Du, W. Li, H. Chang, T. Yang, G. Duan, B. Wu, J. C. Huang, F. R. Chen, C. T. Liu, W. Chuang, Y. Lu, M. Sui, E. W. Huang. "Dual heterogeneous structures lead to ultrahigh strength and uniform ductility in a Co-Cr-Ni medium-entropy alloy", Nature Communications, 11, 13 May 2020, pp 1-7. doi: https://doi.org/10.1038/s41467-020-16085-z. (A+, IF: 17.694, Ranking: 8.22%)
[9] 畅海涛, 李万鹏, 杨涛, 黄志青, 武保林, 段国升, 杜兴蒿, "立⽅晶体结构⾼熵合⾦在低温条件下的⼒学⾏为研究进展", 稀有⾦属材料与⼯程/Rare Metal Materials and Engineering, 49(9), September 2020, pp 3273-3284. (N.A.)
[10] 畅海涛, 霍晓峰, 李万鹏, 杨涛, 黄志青, 武保林, 段国升, 杜兴蒿, "⾼熵合⾦强化机制的研究进展", 稀有⾦属材料与⼯程, 49(10), October 2020, pp 3633-3645. (N.A.)
[11] C. Wang, K. Lin, Y. Zhao, T. Yang, T. Zhang, W. Liu, C.H. Hsueh, H.C. Lin, J.J. Kai, C.T. Liu*. “Martensitic transformation and mechanical behavior of a medium-entropy alloy”, Materials Science and Engineering: A. 786, 1 Jun 2020, pp 139371. doi: https://doi.org/10.1016/j.msea.2020.139371. . (A, IF: 6.044, Ranking: 11.39%)
[12] Z. Jia, T. Yang, L. Sun, Y. Zhao, W. Li, J. Luan, F. Lyu, L. Zhang, J. J. Kruzic, J. J. Kai, J. Huang, J. Lu*, C. T. Liu*. “A Novel Multinary Intermetallic as an Active Electrocatalyst for Hydrogen Evolution”, Advanced Materials. 32 (21), 8 Apr 2020, pp 2000385. Doi: https://doi.org/10.1002/adma.202000385. (A+, IF: 32.086, Ranking: 2.45%)
[13] T. Yang, Y. Zhao, L. Fan, J. Wei, J. Luan, W. Liu, C. Wang, Z. Jiao, J.J. Kai, C.T. Liu*. “Control of nanoscale precipitation and elimination of intermediate-temperature embrittlement in multicomponent high-entropy alloys”, Acta Materialia. 189, 1 May 2020, pp 47-59. doi: https://doi.org/10.1016/j.actamat.2020.02.059. (A+, IF: 9.209, Ranking: 3.8%)
[14] Y. Zhao, T. Yang, Y. Li, L. Fan, B. Han, Z. Jiao, D. Chen, C.T. Liu, J.J. Kai*. “Superior high-temperature properties and deformation-induced planar faults in a novel L12-strengthened high-entropy alloy”, Acta Materialia. 188, 15 Apr 2020, pp 517-527. doi: https://doi.org/10.1016/j.actamat.2020.02.028. (A+, IF: 9.209, Ranking: 3.8%)
[15] W. Liu, Y. Tong, S. Chen, W. Xu, H. Wu, Y. Zhao, T. Yang, X. Wang, X. Liu, J. Kai, C.T. Liu*. “Unveiling the Electronic Origin for Pressure-Induced Phase Transitions in High-Entropy Alloys”, Matter. 2 (3), 4 Mar 2020, pp 751-763. doi: https://doi.org/10.1016/j.matt.2019.12.023. (A+, IF: 19.967, Ranking: 4.64%)
[16] J. Ruan, W. Xu, T. Yang, J. Yu, S. Yang, J. Luan, T. Omori, C. Wang, R. Kainuma, K. Ishida, C. T. Liu, X. Liu*. “Accelerated design of novel W-free high-strength Co-base superalloys with extremely wide γ/γʹ region by machine learning and CALPHAD methods”, Acta Materialia. 186, 1 Mar 2020, pp 425-433. doi: https://doi.org/10.1016/j.actamat.2020.01.004. (A+, IF: 9.209, Ranking: 3.8%)
Ø 2019
[1] B. Cao, T. Yang, W. Liu, C.T. Liu*. “Precipitation-hardened high-entropy alloys for high-temperature applications: A critical review”, MRS Bulletin. 44(11), Nov 2019, pp 854-859. doi: https://doi.org/10.1557/mrs.2019.255. (A, IF: 4.882, Ranking: 25.47%)
[2] T. Yang, Y. Zhao, J. Luan, B. Han, J. Wei, J.J. Kai, C.T. Liu*. “Nanoparticles-strengthened high-entropy alloys for cryogenic applications showing an exceptional strength-ductility synergy”, Scripta Materialia. 164, 15 Apr 2019, pp 30-35. doi: https://doi.org/10.1016/j.scriptamat.2019.01.034. (A+, IF: 6.302, Ranking: 8.86%)
[3] Y. Tong, D. Chen, B. Han, J. Wang, R. Feng, T. Yang, C. Zhao, Y. Zhao, W. Guo, Y. Shimizu, C.T. Liu, P.K. Liaw, K. Inoue, Y. Nagai, A. Hu, J.J. Kai*. “Outstanding tensile properties of a precipitation-strengthened FeCoNiCrTi0.2 high-entropy alloy at room and cryogenic temperatures”, Acta Materialia. 165, 15 Feb 2019, pp 228-240. doi: https://doi.org/10.1016/j.actamat.2018.11.049. (A+, IF: 9.209, Ranking: 3.8%)
[4] M. Yang, J. Zhu, T. Yang, J. Luan, Z. Jiao, X. Fan, B. Kuhn, X. Xiong, C. Wang, C. T. Liu, X. Liu*. “A novel ferritic steel family hardened by intermetallic compound G-phase”, Materials Science and Engineering A. 745, 4 Feb 2019, pp 390-399. doi: https://doi.org/10.1016/j.msea.2018.11.148. (A, IF: 6.044, Ranking: 11.39%)
[5] Y. Zhao, T. Yang, B. Han, J. Luan, D. Chen, W. Kai, C. T. Liu, J. Kai*. “Exceptional nanostructure stability and its origins in the CoCrNi-based precipitation-strengthened medium-entropy alloy”, Materials Research Letters. 7(4), 21 Jan 2019, pp 152-158. doi: https://doi.org/10.1080/21663831.2019.1568315. (A, IF: 8.516, Ranking: 19.42%)
Ø 2018
[1] T. Yang, Y. Zhao, Y. Tong, Z. Jiao, J. Wei, J. Cai, X. Han, D. Chen, A. Hu, J.J. Kai, K. Lu, Y. Liu, C.T. Liu*. “Multicomponent intermetallic nanoparticles and superb mechanical behaviors of complex alloys”, Science. 362(6417), 23 Nov 2018, pp 933-937. doi:10.1126/science.aas881. (A+, IF: 63.798, Ranking: 2.74%)
[2] T. Yang, Y. Zhao, W. Liu, J. Kai, C. T. Liu*. “L12-strengthened high-entropy alloys for advanced structural applications”, Journal of Materials Research. 33(19), 14 Oct 2018, pp 2983-2997. doi:10.1557/jmr.2018.186. (B, IF: 2.909, Ranking: 62.03%)
[3] T. Yang, Y. Zhao, W. Liu, J.H. Zhu, J.J. Kai, C.T. Liu*. “Ductilizing brittle high-entropy alloys via tailoring valence electron concentrations of precipitates by controlled elemental partitioning”, Materials Research Letters. 6(10), 3 Oct 2018, pp 600-606. doi: https://doi.org/10.1080/21663831.2018.1518276. (A, IF: 8.516, Ranking: 19.42%)
[4] F. He, Z. Wang*, Q. Wu, D. Chen, T. Yang, J. Li, J. Wang*, C.T. Liu, Ji-jung Kai*. “Tuning the defects in face centered cubic high entropy alloy via temperature-dependent stacking fault energy”, Scripta Materialia. 155, 1 Oct 2018, pp 134-138. doi: https://doi.org/10.1016/j.scriptamat.2018.06.002. (A+, IF: 6.302, Ranking: 8.86%)
[5] W. Liu, T. Yang, C.T. Liu*. “Precipitation hardening in CoCrFeNi-based high entropy alloys”, Materials Chemistry and Physics. 210, 1 May 2018, pp 2-11. doi: https://doi.org/10.1016/j.matchemphys.2017.07.037. (B+, IF: 4.778, Ranking: 36.23%)
[6] B. Han, J. Wei, Y. Tong, D. Chen, Y. Zhao, J. Wang, F. He, T. Yang, C. Zhao, Y. Shimizu, K. Inoue, Y. Nagai, A. Hu, C. T. Liu, J. Kai*. “Composition evolution of gamma prime nanoparticles in the Ti-doped CoFeCrNi high entropy alloy”, Scripta Materialia. 148, 15 Apr 2018, pp 42-46. doi: https://doi.org/10.1016/j.scriptamat.2018.01.025. (A+, IF: 6.302, Ranking: 8.86%)
[7] Y. Zhao, T. Yang, J. Zhu, D. Chen, Y. Yang, A. Hu, C.T. Liu, J.J. Kai*. “Development of high-strength Co-free high-entropy alloys hardened by nanosized precipitates”, Scripta Materialia. 148, 15 Apr 2018, pp 51-55. doi: https://doi.org/10.1016/j.scriptamat.2018.01.028. (A+, IF: 6.302, Ranking: 8.86%)
[8] J. Ruan, X. Liu, S. Yang, W. Xu, T. Omori, T. Yang, B. Deng, H. Jiang, C. Wang*, R. Kainuma, K. Ishida. “Novel Co-Ti-V-base superalloys reinforced by L12-ordered γ′ phase”, Intermetallics. 92, 1 Jan 2018, pp. 126-132. doi: https://doi.org/10.1016/j.intermet.2017.09.015. (A, IF: 4.075, Ranking:18.99%)