| 1 |
Improved Performance of Bacterial Nanocellulose Conduits by the Introduction of Silk Fibroin Nanoparticles and Heparin for Small-Caliber Vascular Graft Applications
Bao LH, Hong FF, Li GL, Hu GQ, Chen L
Biomacromolecules, 22(2), 353, 2021 |
| 2 |
Scale-up of production of bacterial nanocellulose using submerged cultivation
Chen GQ, Wu GC, Alriksson B, Chen L, Wang W, Jonsson LJ, Hong FF
Journal of Chemical Technology and Biotechnology, 93(12), 3418, 2018 |
| 3 |
Evaluation of six ionic liquids and application in pretreatment of sweet sorghum bagasse for bacterial nanocellulose production
Chen GQ, Chen L, Wang W, Hong FF
Journal of Chemical Technology and Biotechnology, 93(12), 3452, 2018 |
| 4 |
Comparison of two types of bioreactors for synthesis of bacterial nanocellulose tubes as potential medical prostheses including artificial blood vessels
Tang JY, Li X, Bao LH, Chen L, Hong FF
Journal of Chemical Technology and Biotechnology, 92(6), 1218, 2017 |
| 5 |
Using in situ nanocellulose-coating technology based on dynamic bacterial cultures for upgrading conventional biomedical materials and reinforcing nanocellulose hydrogels
Zhang P, Chen L, Zhang QS, Jonsson LJ, Hong FF
Biotechnology Progress, 32(4), 1077, 2016 |
| 6 |
Production of bacterial nanocellulose and enzyme from [AMIM]Cl-pretreated waste cotton fabrics: effects of dyes on enzymatic saccharification and nanocellulose production
Guo X, Chen L, Tang JY, Jonsson LJ, Hong FF
Journal of Chemical Technology and Biotechnology, 91(5), 1413, 2016 |
| 7 |
Biodesulfurization of coal with Acidithiobacillus caldus and analysis of the interfacial interaction between cells and pyrite
He H, Hong FF, Tao XX, Li L, Ma CY, Zhao YD
Fuel Processing Technology, 101, 73, 2012 |
| 8 |
Analysis of sulfur speciation on chalcopyrite surface bioleached with Acidithiobacillus ferrooxidans
He H, Xia JL, Hong FF, Tao XX, Leng YW, Zhao YD
Minerals Engineering, 27, 60, 2012 |
