Author:
Yousaf Faryal,Irfan Muhammad
Publisher
Springer Science and Business Media LLC
Reference144 articles.
1. Rajput, V., Minkina, T., Fedorenko, A., Sushkova, S., Mandzhieva, S., Lysenko, V., et al. (2018). Toxicity of copper oxide nanoparticles on spring barley (Hordeum sativum distichum). Science of the Total Environment, 645, 1103–1113.
2. Peijnenburg, W. J. G. M., Praetorius, A., Scott-Fordsmand, J., & Cornelis, G. (2016). Fate assessment of engineered nanoparticles in solids dominated media–Current insights and the way forward. Environmental Pollution, 218, 1365–1369.
3. Wang, X., Liu, X., Yang, X., Wang, L., Yang, J., Yan, X., et al. (2022). In vivo phytotoxic effect of yttrium-oxide nanoparticles on the growth, uptake and translocation of tomato seedlings (Lycopersicon esculentum). Ecotoxicology and Environmental Safety, 242, 113939.
4. Corma, A., Atienzar, P., García, H., & Chane-Ching, J. Y. (2004). Hierarchically mesostructured doped CeO2 with potential for solar-cell use. Nature materials, 3(6), 394–397.
5. Qi, L., Ge, Y., Xia, T., He, J. Z., Shen, C., Wang, J., & Liu, Y. J. (2019). Rare earth oxide nanoparticles promote soil microbial antibiotic resistance by selectively enriching antibiotic resistance genes. Environmental Science: Nano, 6(2), 456–466.