| Title | Author(s) | Year | View Count |
 | 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 | 93 |
| Electrospinning and evaluation of PHBV-based tissue engineering scaffolds with different fibre diameters, surface topography and compositions | Tong, HW; Wang, M; Lu, WW | 2012 | 83 |
| A new nanofiber fabrication technique based on coaxial electrospinning | Tong, HW; Zhang, X; Wang, M | 2012 | 121 |
 | Electrospinning of nanocomposite scaffolds for bone Tissue engineering: Emitting electrode polarity and charge retention | Tong, HW; Wang, M | 2012 | 38 |
| Negative voltage electrospinning of fibrous nanocomposite scaffolds for bone tissue engineering | Tong, HW; Wang, M | 2012 | 82 |
| 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 |
| A novel electrospinning technique for fabricating 3D tissue engineering scaffolds and highly-aligned fibrous structures | Tong, HW; Wang, M | 2012 | 63 |
| Developing negatively charged nanofibrous scaffolds via electrospinning for tissue engineering applications | Tong, HW; Wang, M | 2012 | 54 |
| Nanofibrous gelatin tissue engineering scaffolds: solvent-free electrospinning and crosslinking of gelatin fibers by genipin | Tong, HW; Wang, M | 2012 | 51 |
| Characteristics and in vitro biological assessment of (Ti, O, N)/Ti composite coating formed on NiTi shape memory alloy | Sun, T; Wang, LP; Wang, M; Tong, HW; Lu, WW | 2011 | 423 |
| Electrospinning of poly(hydroxybutyrate-co-hydroxyvalerate) fibrous scaffolds for tissue engineering applications: Effects of electrospinning parameters and solution properties | Tong, HW; Wang, M | 2011 | 378 |
| Electrospinning of poly(hydroxybutyrate-co-hydroxyvalerate) fibrous tissue engineering scaffolds in two different electric fields | Tong, HW; Wang, M | 2011 | 792 |
| 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 |
| 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 | 675 |
| Tissue engineering scaffolds formed by pseudo-negative voltage electrospinning | Tong, HW; Wang, M | 2011 | 355 |
| An investigation into the influence of electrospinning parameters on the diameter and alignment of poly(hydroxybutyrate-co-hydroxyvalerate) fibers | Tong, HW; Wang, M | 2011 | 582 |
| Fabrication of nanofibrous tissue engineering scaffolds via coaxial electrospinning and their characteristics | Tong, HW; Zhang, X; Wang, M | 2011 | 139 |
| Electrospinning of nanofibrous tissue engineering scaffolds: a comparative study | Tong, HW; Zhang, X; Wang, M | 2011 | 123 |
| 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 | 2011 | 102 |
 | Electrospinning of fibrous polymer scaffolds using positive voltage or negative voltage: A comparative study | Tong, HW; Wang, M | 2010 | 569 |
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