Ex situ electrochemical techniques in connection with PGE have been applied to the study of redox and catalytic properties of doxorubicin (DOX). Voltammetry and chronopotentiometry were used to follow reversible reduction of DOX quinone moiety around -0.5 V and its coupling to catalytic oxygen reduction. The catalytic signal of DOX was used for monitoring of interaction of DOX with DNA.
Ex situ electrochemical techniques in connection with PGE have been applied to the study of redox and catalytic properties of doxorubicin (DOX). Voltammetry and chronopotentiometry were used to follow reversible reduction of DOX quinone moiety around -0.5 V and its coupling to catalytic oxygen reduction. The catalytic signal of DOX was used for monitoring of interaction of DOX with DNA. (en)
Ex situ voltammetry and chronopotentiometry of doxorubicin at a pyrolytic graphite electrode: Redox and catalytic properties and analytical applications
Ex situ voltammetry and chronopotentiometry of doxorubicin at a pyrolytic graphite electrode: Redox and catalytic properties and analytical applications (en)
Ex situ voltammetry and chronopotentiometry of doxorubicin at a pyrolytic graphite electrode: Redox and catalytic properties and analytical applications
Ex situ voltammetry and chronopotentiometry of doxorubicin at a pyrolytic graphite electrode: Redox and catalytic properties and analytical applications (en)