- Si Jiajia,Fe-based Metallic Glasses as Efficient Oxygen Scavengers:Nature Communications,2026
- Si Jiajia,Thermite-synthesized Fe–Ti–Al–Mg high-entropy intermetallic compound for efficient azo dye degradation:Rare Metals,2026
- Si Jiajia,Deciphering the exceptional chemical activity of a High-entropy metallic glass:Materials Research Letters,2025
- Si Jiajia,Multiscale ceramic–reinforced high-entropy alloy composite coating with simultaneous high resistance to sand erosion and cavitation damage:Surface & Coatings Technology,2026
- Si Jiajia,Minor Cu modification endows inactive industrial FeSiBNbCu metallic glass with robust azo dye degradation activity:Applied Surface Science,2026
- Si Jiajia,Porous composite architecture bestows Fe-based glassy alloy with high and ultra-durable degradation activity in decomposing azo dye:Journal of Hazardous Materials
- Si Jiajia,Corrosion behavior of Cr-based bulk metallic glasses in hydrochloric acid solutions:Corrosion Science
- Si Jiajia,Cr-based bulk metallic glasses with ultrahigh hardness:Applied Physics Letters
- Si Jiajia,Composition-controlled active-passive transition and corrosion behavior of Fe-Cr (Mo)-Zr-B bulk amorphous steels:Applied Surface Science
- Si Jiajia,Glass formation and soft magnetic properties of novel Fe-rich Fe-B-Ti-Zr bulk metallic glasses:Journal of Alloys and Compounds