Copper oxide nanoparticle dissolution at alkaline pH is controlled by dissolved organic matter: influence of soil-derived organic matter, wheat, bacteria, and …
JM Hortin, AJ Anderson, DW Britt… - Environmental …, 2020 - pubs.rsc.org
Dissolution of CuO nanoparticles, releasing Cu ions, is a primary mechanism of Cu
interaction in the rooting zone of plants. CuO dissolution is sometimes incorrectly considered …
interaction in the rooting zone of plants. CuO dissolution is sometimes incorrectly considered …
Copper oxide nanoparticle dissolution at alkaline pH is controlled by dissolved organic matter: influence of soil-derived organic matter, wheat, bacteria, and …
JM Hortin, AJ Anderson, DW Britt… - Environmental Science …, 2020 - par.nsf.gov
Dissolution of CuO nanoparticles, releasing Cu ions, is a primary mechanism of Cu
interaction in the rooting zone of plants. CuO dissolution is sometimes incorrectly considered …
interaction in the rooting zone of plants. CuO dissolution is sometimes incorrectly considered …
[引用][C] Copper oxide nanoparticle dissolution at alkaline pH is controlled by dissolved organic matter: influence of soil-derived organic matter, wheat, bacteria, and …
JM Hortin, AJ Anderson, DW Britt, AR Jacobson… - Environ. Sci.-Nano, 2020 - osti.gov
Copper oxide nanoparticle dissolution at alkaline pH is controlled by dissolved organic matter:
influence of soil-derived organic matter, wheat, bacteria, and nanoparticle coating (Journal …
influence of soil-derived organic matter, wheat, bacteria, and nanoparticle coating (Journal …