T. Guo Et Al. , "Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.," ACS applied materials & interfaces , vol.13, no.7, pp.7897-7912, 2021
Guo, T. Et Al. 2021. Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.. ACS applied materials & interfaces , vol.13, no.7 , 7897-7912.
Guo, T., Oztug, N. A., Han, P., Ivanovski, S., & Gulati, K., (2021). Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.. ACS applied materials & interfaces , vol.13, no.7, 7897-7912.
Guo, Tianqi Et Al. "Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.," ACS applied materials & interfaces , vol.13, no.7, 7897-7912, 2021
Guo, Tianqi Et Al. "Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.." ACS applied materials & interfaces , vol.13, no.7, pp.7897-7912, 2021
Guo, T. Et Al. (2021) . "Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.." ACS applied materials & interfaces , vol.13, no.7, pp.7897-7912.
@article{article, author={Tianqi Guo Et Al. }, title={Old is Gold: Electrolyte Aging Influences the Topography, Chemistry, and Bioactivity of Anodized TiO2 Nanopores.}, journal={ACS applied materials & interfaces}, year=2021, pages={7897-7912} }