S. Chung Et Al. , "Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth," FRONTIERS IN PHYSIOLOGY , vol.7, 2016
Chung, S. Et Al. 2016. Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth. FRONTIERS IN PHYSIOLOGY , vol.7 .
Chung, S., Ercan, B., Roy, A. K., & Webster, T. J., (2016). Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth. FRONTIERS IN PHYSIOLOGY , vol.7.
Chung, Stanley Et Al. "Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth," FRONTIERS IN PHYSIOLOGY , vol.7, 2016
Chung, Stanley Et Al. "Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth." FRONTIERS IN PHYSIOLOGY , vol.7, 2016
Chung, S. Et Al. (2016) . "Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth." FRONTIERS IN PHYSIOLOGY , vol.7.
@article{article, author={Stanley Chung Et Al. }, title={Addition of Selenium Nanoparticles to Electrospun Silk Scaffold Improves the Mammalian Cell Activity While Reducing Bacterial Growth}, journal={FRONTIERS IN PHYSIOLOGY}, year=2016}