Metal-Doped Graphene Materials as Electrocatalysts in Sensors

Preview this chapter:

Metal-Doped Graphene Materials as Electrocatalysts in Sensors, Page 1 of 1

< Previous page | Next page > /docserver/preview/fulltext/9789815040494/chap6-1.gif

A wide range of new electrocatalytic nanomaterials are introduced from time to time and are expected to continuously develop and advance the electrocatalytic sensors for different molecules. This book chapter intends to cover the latest progress and innovations in the field of metal-doped graphene (MDG) based electrocatalysts as sensors. In addition to experimental studies, electrocatalytic sensor behavior of bioactive molecules using theoretical studies has become one of the most rapidly developing fields. It is readily evident that metals combined with graphene, doped with single transition metal atom catalysts, and prepared as electrocatalytic sensors can be employed to enhance some unique properties different from the properties of bulk graphene. This book chapter encompasses preparation techniques of MDG materials as sensors for the detection of H2, NO2, H2O2, CO, CO2, SO2, O2, and H2S from experimental and theoretical perspectives. In this respect, we present a synthesis of MDG based electrocatalysts and factors affecting sensors using both experimental and theoretical studies. The most probable reason for the highest efficiency of some metals doped graphene is described from the experimental and theoretical perspectives. Finally, the conclusion describing challenges and future outlooks for the advancement of MDG materials is also given.