Internal-micro-electrolysis-enhanced heterogeneous electro-Fenton process catalyzed by Fe/Fe3C@ PC core–shell hybrid for sulfamethazine degradation
X Du, W Fu, P Su, J Cai, M Zhou - Chemical Engineering Journal, 2020 - Elsevier
Core-shell structured hybrid octahedron, which contained a Fe-based nanoparticle core
(Fe/Fe 3 C) and a graphitized porous carbon (PC) shell (Fe/Fe 3 C@ PC), prepared through …
(Fe/Fe 3 C) and a graphitized porous carbon (PC) shell (Fe/Fe 3 C@ PC), prepared through …
Internal-micro-electrolysis-enhanced heterogeneous electro-Fenton process catalyzed by Fe/Fe3C@PC core-shell hybrid for sulfamethazine degradation.
X Du, W Fu, P Su, J Cai, M Zhou - 2020 - cabidigitallibrary.org
Core-shell structured hybrid octahedron, which contained a Fe-based nanoparticle core
(Fe/Fe3C) and a graphitized porous carbon (PC) shell (Fe/Fe3C@ PC), prepared through …
(Fe/Fe3C) and a graphitized porous carbon (PC) shell (Fe/Fe3C@ PC), prepared through …
Internal-micro-electrolysis-enhanced heterogeneous electro-Fenton process catalyzed by Fe/Fe3C@PC core-shell hybrid for sulfamethazine degradation
X Du, W Fu, P Su, J Cai, M Zhou - Chemical Engineering …, 2020 - ui.adsabs.harvard.edu
Core-shell structured hybrid octahedron, which contained a Fe-based nanoparticle core
(Fe/Fe 3 C) and a graphitized porous carbon (PC) shell (Fe/Fe 3 C@ PC), prepared through …
(Fe/Fe 3 C) and a graphitized porous carbon (PC) shell (Fe/Fe 3 C@ PC), prepared through …