Fang, F. Et Al. 2022. Enhancing the stability of environmental resistance of alloyed CdZnSeS@ZnS quantum dots by doping Ti ions into shell layer. NANOTECHNOLOGY , vol.33, no.50 .

Fang, F., Liu, H., Wen, Z., Liu, C., Xu, B., Zhang, Z., ... Wang, K.(2022). Enhancing the stability of environmental resistance of alloyed CdZnSeS@ZnS quantum dots by doping Ti ions into shell layer. NANOTECHNOLOGY , vol.33, no.50.

Fang, Fan Et Al. "Enhancing the stability of environmental resistance of alloyed CdZnSeS@ZnS quantum dots by doping Ti ions into shell layer," NANOTECHNOLOGY , vol.33, no.50, 2022

Fang, Fan Et Al. "Enhancing the stability of environmental resistance of alloyed CdZnSeS@ZnS quantum dots by doping Ti ions into shell layer." NANOTECHNOLOGY , vol.33, no.50, 2022

Fang, F. Et Al. (2022) . "Enhancing the stability of environmental resistance of alloyed CdZnSeS@ZnS quantum dots by doping Ti ions into shell layer." NANOTECHNOLOGY , vol.33, no.50.

@article{article, author={Fan Fang Et Al. }, title={Enhancing the stability of environmental resistance of alloyed CdZnSeS@ZnS quantum dots by doping Ti ions into shell layer}, journal={NANOTECHNOLOGY}, year=2022}