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Tunable optoelectronic performances of novel 7H-benzo[c]fluoren-7-one acceptor unit-based conjugated D-A polymers Journal article
Wang, Shuo, Mo, Daize, Deng, Kuirong, Zhang, Qingwen. Tunable optoelectronic performances of novel 7H-benzo[c]fluoren-7-one acceptor unit-based conjugated D-A polymers[J]. Synthetic Metals, 2024, 306, 117630.
Authors:  Wang, Shuo;  Mo, Daize;  Deng, Kuirong;  Zhang, Qingwen
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:4.0/3.4 | Submit date:2024/05/16
D-a Polymers  Fluorenone  Electrochromic  Acceptor Units  
Effect of Mo on the morphology, microstructure and mechanical properties of NbTa0.5TiMox refractory high entropy alloy fabricated by laser powder bed fusion using elemental mixed powders Journal article
Fei Wang, Tiechui Yuan, Ruidi Li, Shiqi Lin, Pengda Niu, Valentino Cristino. Effect of Mo on the morphology, microstructure and mechanical properties of NbTa0.5TiMox refractory high entropy alloy fabricated by laser powder bed fusion using elemental mixed powders[J]. INTERNATIONAL JOURNAL OF REFRACTORY METALS & HARD MATERIALS, 2023, 111, 106107.
Authors:  Fei Wang;  Tiechui Yuan;  Ruidi Li;  Shiqi Lin;  Pengda Niu; et al.
Adobe PDF | Favorite | TC[WOS]:16 TC[Scopus]:18  IF:4.2/4.2 | Submit date:2023/02/22
Laser Powder Bed Fusion  Refractory High-entropy Alloy  Elemental Mixed Powders  In Situ alloyIng  Microstructure  Mechanical Properties  
Atomic layer deposition of zinc oxide onto 3D porous iron scaffolds for bone repair: in vitro degradation, antibacterial activity and cytocompatibility evaluation Journal article
Li, Yu Lei, He, Jin, Ye, Hai Xia, Zhao, Can Can, Zhu, Wei Wei, Lu, Xiong, Ren, Fu Zeng. Atomic layer deposition of zinc oxide onto 3D porous iron scaffolds for bone repair: in vitro degradation, antibacterial activity and cytocompatibility evaluation[J]. Rare Metals, 2022, 41(2), 546-558.
Authors:  Li, Yu Lei;  He, Jin;  Ye, Hai Xia;  Zhao, Can Can;  Zhu, Wei Wei; et al.
Favorite | TC[WOS]:9 TC[Scopus]:11  IF:9.6/6.9 | Submit date:2022/03/04
Antibacterial Activity  Atomic Layer Deposition  Porous Iron Scaffolds  Zno  
Antibacterial property of a gradient Cu-bearing titanium alloy by laser additive manufacturing Journal article
Fan, Dong Yang, Yi, Zhe, Feng, Xu, Tian, Wen Zhi, Xu, Da Ke, Cristino Valentino, A. M., Wang, Qiang, Sun, Hong Chen. Antibacterial property of a gradient Cu-bearing titanium alloy by laser additive manufacturing[J]. RARE METALS, 2021, 41(2), 580–593.
Authors:  Fan, Dong Yang;  Yi, Zhe;  Feng, Xu;  Tian, Wen Zhi;  Xu, Da Ke; et al.
Adobe PDF | Favorite | TC[WOS]:33 TC[Scopus]:34  IF:9.6/6.9 | Submit date:2022/08/11
Copper  Titanium Alloys  Biofilm  Antibacterial Property  Streptococcus Mutans  
Antibacterial property of a gradient Cu-bearing titanium alloy by laser additive manufacturing Journal article
Fan, Dong Yang, Yi, Zhe, Feng, Xu, Tian, Wen Zhi, Xu, Da Ke, Cristino Valentino, A. M., Wang, Qiang, Sun, Hong Chen. Antibacterial property of a gradient Cu-bearing titanium alloy by laser additive manufacturing[J]. RARE METALS, 2021, 41(2), 580-593.
Authors:  Fan, Dong Yang;  Yi, Zhe;  Feng, Xu;  Tian, Wen Zhi;  Xu, Da Ke; et al.
Adobe PDF | Favorite | TC[WOS]:33 TC[Scopus]:34  IF:9.6/6.9 | Submit date:2022/03/04
Antibacterial Property  Biofilm  Copper  Streptococcus Mutans  Titanium Alloys  
A comprehensive study of steel powders (316L, H13, P20 and 18Ni300) for their selective laser melting additive manufacturing Journal article
Yan J., Zhou Y., Gu R., Zhang X., Quach W.-M., Yan M.. A comprehensive study of steel powders (316L, H13, P20 and 18Ni300) for their selective laser melting additive manufacturing[J]. Metals, 2019, 9(1).
Authors:  Yan J.;  Zhou Y.;  Gu R.;  Zhang X.;  Quach W.-M.; et al.
Favorite | TC[WOS]:57 TC[Scopus]:62  IF:2.6/2.7 | Submit date:2019/02/14
Additive Manufacturing  Powder  Selective Laser Melting  Steel  Surface Structure  
Ultra-small single-walled carbon nanotubes and their superconductivity properties Conference paper
Tang Z.K., Zhang L.Y., Wang N., Zhang X.X., Wang J.N., Li G.D., Li Z.M., Wen G.H., Chan C.T., Sheng P.. Ultra-small single-walled carbon nanotubes and their superconductivity properties[C], 2003, 689-693.
Authors:  Tang Z.K.;  Zhang L.Y.;  Wang N.;  Zhang X.X.;  Wang J.N.; et al.
Favorite | TC[WOS]:21 TC[Scopus]:25 | Submit date:2019/04/08
Nanotubes  Superconductivity  Swnt