Inactivation of harmful cyanobacteria Microcystis aeruginosa by Cu2+ doped corn stalk biochar treated with different pyrolysis temperatures
In this study, biochars (BCs) derived from corn stalk treated at various pyrolysis temperatures
(350–950° C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide …
(350–950° C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide …
Inactivation of harmful cyanobacteria Microcystis aeruginosa by Cu2+ doped corn stalk biochar treated with different pyrolysis temperatures
X Gao, H Zhang, J Zhang, N Weng… - Bioresource … - pubmed.ncbi.nlm.nih.gov
In this study, biochars (BCs) derived from corn stalk treated at various pyrolysis temperatures
(350-950° C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide …
(350-950° C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide …
Inactivation of harmful cyanobacteria Microcystis aeruginosa by Cu2+ doped corn stalk biochar treated with different pyrolysis temperatures.
X Gao, H Zhang, J Zhang, N Weng… - Bioresource Technology, 2023 - europepmc.org
In this study, biochars (BCs) derived from corn stalk treated at various pyrolysis temperatures
(350-950 C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide, ie …
(350-950 C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide, ie …
Inactivation of harmful cyanobacteria Microcystis aeruginosa by Cu2+ doped corn stalk biochar treated with different pyrolysis temperatures
X Gao, H Zhang, J Zhang, N Weng… - Bioresource …, 2024 - ui.adsabs.harvard.edu
In this study, biochars (BCs) derived from corn stalk treated at various pyrolysis temperatures
(350-950 C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide, ie …
(350-950 C) were prepared and then loaded with Cu 2+ to form highly efficient algaecide, ie …