info:eu-repo/semantics/article
Recent advances in the development of electrochemical hydrogen peroxide carbon nanotube–based (bio)sensors
Fecha
2019-03Registro en:
Eguílaz Rubio, Marcos; Dalmasso, Pablo Roberto; Rubianes, María Dolores; Gutierrez, Fabiana Andrea; Rodriguez, Marcela Cecilia; et al.; Recent advances in the development of electrochemical hydrogen peroxide carbon nanotube–based (bio)sensors; Elsevier; Current Opinion in Electrochemistry; 14; 3-2019; 157-165
2451-9111
2451-9103
CONICET Digital
CONICET
Autor
Eguílaz Rubio, Marcos
Dalmasso, Pablo Roberto
Rubianes, María Dolores
Gutierrez, Fabiana Andrea
Rodriguez, Marcela Cecilia
Gallay, Pablo
López Mujica, Michael Earvin
Ramírez, María Laura
Tettamanti, Cecilia Soledad
Montemerlo, Antonella Evelin
Rivas, Gustavo Adolfo
Resumen
The relevance of H2O2 as biomarker for different neurodegenerative diseases and cancer has been one of the most significant incentives for the development of new (bio)sensors that allow a more sensitive, selective, fast, and stable quantification of H2O2. In this regard, the association of carbon nanotubes with hemoproteins, nanoparticles, and other nanostructures and different electrochemical transducers has offered new avenues for the construction of innovative H2O2 bioanalytical platforms. This short review highlights the most relevant contributions in the field of electrochemical (bio)sensors for H2O2 based on carbon nanotubes published in the period 2016–2018.