| | Title | Author(s) | Year | View Count | | 1 |  | Branched metal nanoparticles: a review on wet-chemical syntheses and biomedical applications | Li, SY; Wang, M | 2012 | 83 |
| 2 |  | Prolonged release from PLGA/HAp scaffolds containing drug-loaded PLGA/gelatin composite microspheres | Tang, G; Zhang, H; Zhao, Y; Li, X; Yuan, X; Wang, M | 2012 | 134 |
| 3 | | PIIID-formed (Ti, O)/Ti, (Ti, N)/Ti and (Ti, O, N)/Ti coatings on NiTi shape memory alloy for medical applications | Sun, T; Wang, LP; Wang, M; Tong, HW; Lu, WW | 2012 | 94 |
| 4 | | PHBV/PLLA-based composite scaffolds fabricated using an emulsion freezing/freeze-drying technique for bone tissue engineering: surface modification and in vitro biological evaluation | Sultana, N; Wang, M | 2012 | 57 |
| 5 | | Electrospinning and evaluation of PHBV-based tissue engineering scaffolds with different fibre diameters, surface topography and compositions | Tong, HW; Wang, M; Lu, WW | 2012 | 85 |
| 6 | | A new nanofiber fabrication technique based on coaxial electrospinning | Tong, HW; Zhang, X; Wang, M | 2012 | 121 |
| 7 | | Editorial: Biomaterials and tissue engineering | Wang, M; Narayan, R | 2012 | 43 |
| 8 |  | Three-dimensional nanocomposite scaffolds for bone tissue engineering: from design to application | Duan, B; Wang, M; Lu, WW | 2012 | 66 |
| 9 | | Negative voltage electrospinning of fibrous nanocomposite scaffolds for bone tissue engineering | Tong, HW; Wang, M | 2012 | 83 |
| 10 | | Negative voltage electrospinning and positive voltage electrospinning of tissue engineering scaffolds: a comparative study and charge retention on scaffolds | Tong, HW; Wang, M | 2012 | 72 |
| 11 | | Surface characteristics, properties and in vitro biological assessment of a NiTi shape memory alloy after high temperature heat treatment or surface H 2O 2-oxidation: A comparative study | Sun, T; Wang, M; Lee, WC | 2011 | 75 |
| 12 | | A comparative study of apatite coating and apatite/collagen composite coating fabricated on NiTi shape memory alloy through electrochemical deposition | Sun, T; Lee, WC; Wang, M | 2011 | 64 |
| 13 | | Controlled release of BSA by microsphere-incorporated PLGA scaffolds under cyclic loading | Yang, Y; Tang, G; Zhang, H; Zhao, Y; Yuan, X; Fan, Y; Wang, M | 2011 | 538 |
| 14 | | Surface modification of three-dimensional Ca-P/PHBV nanocomposite scaffolds by physical entrapment of gelatin and its in vitro biological evaluation | Duan, B; Wang, M; Li, ZY; Chan, WC; Lu, WW | 2011 | 603 |
| 15 | | Electrospinning of poly(hydroxybutyrate-co-hydroxyvalerate) fibrous scaffolds for tissue engineering applications: Effects of electrospinning parameters and solution properties | Tong, HW; Wang, M | 2011 | 381 |
| 16 | | Electrospinning of poly(hydroxybutyrate-co-hydroxyvalerate) fibrous tissue engineering scaffolds in two different electric fields | Tong, HW; Wang, M | 2011 | 793 |
| 17 | | Electrospun poly(Hydroxybutyrate-co-Hydroxyvalerate) fibrous membranes consisting of parallel-aligned fibers or cross-aligned fibers: Characterization and biological evaluation | Tong, HW; Wang, M; Lu, WW | 2011 | 55 |
| 18 | | A novel SERS-active tag based on bimetallic flowerlike Au-Ag nanoparticles | Li, SY; Wang, M | 2011 | 91 |
| 19 | | In vitro biological evaluation of fibrous PHBV polymer and CHA/PHBV nanocomposite scaffolds developed for tissue engineering applications | Tong, HW; Wang, M; Lu, WW | 2011 | 676 |
| 20 | | Tissue engineering scaffolds formed by pseudo-negative voltage electrospinning | Tong, HW; Wang, M | 2011 | 355 |
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