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[1]Scandium modified near-β Ti-based implants with ultra-low elastic modulus and superior biocompatibility.JOURNAL OF ALLOYS AND COMPOUNDS, 2025, 1022: 179873.
[2]Systematic thermodynamic predications of alloying element binding behavior: a case of elemental selection for Mn-reinforced Mg-based alloys and composites.MATERIALS TODAY CHEMISTRY, 2025, 46: 102792.
[3]Overcoming the strength and ductility trade-off in a metastable β-Ti alloy by coupling heterostructure strengthening and transformation-induced plasticity.Rare Metals, 2025
[4]The elemental selection rules for corrosion-resistant Mg alloys from first-principles calculations.MATERIALS TODAY CHEMISTRY, 2025, 43: 102519.
[5]High-throughput exploration of composition-dependent mechanical and diffusion properties of Ti-Al-V-Cr alloys.Journal of Alloys and Compounds, 2025, 1021: 179651.
[6]Bifunctional Synergistic Mg@SnSb SEI for Low Interfacial Reaction Energy Barriers and Stable Cycling of High-Performance Rechargeable Magnesium Batteries.Advanced Functional Materials, 2025
[7]Achieving stable ultra-low elastic modulus in near-β titanium alloys through cold rolling and pre-strain.ACTA MATERIALIA, 2025, 286: 120726.
[8]The elemental selection rules for corrosion-resistant Mg alloys from first-principles calculations.MATERIALS TODAY CHEMISTRY, 2025, 43: 102519.
[9]Thermodynamic evaluation and optimization of the K2O‐Al2O3‐SiO2 system.Journal of the American Ceramic Society, 2024, 107 (12) : 8732-8745.
[10]Self-Healable, High-Stability Anode for Rechargeable Magnesium Batteries Realized by Graphene-Confined Gallium Metal.Nano Letter, 2024, 24: 10734-10741.
[11]Grain size effect on stress-induced martensite in a metastable β-Ti alloy with ultrahigh strength and strain hardening rate.Materials Science and Engineering A, 2024, 918 (3) : 147479.
[12]Osteogenic activity of a micro/nano hierarchical nano-hydroxyapatite coating on zirconium alloy.Materials Characterization, 2023, 205: 113356.
[13]Heterostructures Enhance Simultaneously Strength and Ductility of a Commercial Titanium Alloy.Acta Materialia, 2023, 257: 119182.
[14]Elastin-like recombinamer-mediated hierarchical mineralization coatings on Zr-16Nb-xTi (x = 4,16 wt%) alloy surfaces improve biocompatibility.Biomaterials Advances, 2023, 151: 213471.
[15]Controllable degradation behavior of Mg-Sr-Y alloys for the bio-applications.npj Materials Degradation, 2023, 7: 45.
[16]Experimental investigation and and thermodynamic assessment of the Al–Ag–Sc system[J].Journal of Alloys and Compounds, 2022, 934: 167980.
[17]Effect of cold rolling and solution treatment on βstability and mechanical properties of a metastable β-Ti alloy[J].Materials Science & Engineering A, 2022, 861: 144366.
[18]Surface modification of zirconium alloy implants by collagen encapsulated strontium ranelate@PCN-224 coating to improve biocompatibility and promote osseointegration[J].Materials Chemistry and Physics, 2022: 126910.
[19]Osteo-angiogenic and antibacterial activity of a multifunctional micro-porous coating on zirconium alloy[J].Applied Surface Science, 2022, 604: 154465.
[20]Influence of cooling rate on ω phase precipitation and deformation mechanism of a novel metastable β titanium alloy[J].Materials Science and Engineering: A, 2022, 829: 142151.
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