Phosphorene and other layered pnictogens as a new source of 2D materials for electrochemical sensors
María A. Tapia, Rui Gusmão, Núria Serrano, Zdeněk Sofer, Cristina Ariño, José Manuel Dı́az-Cruz, Miquel Esteban
Abstract
Following the great success of graphene as a versatile 2D nanomaterial for the design of electrochemical sensors, this review focuses on the synthesis, characterization, and electrochemical sensing applications of alternative 2D layered structures produced with elements of group VA, also known as “pnictogens.” Among these, phosphorene nanosheets generated from black phosphorous (BP) is by far the most popular 2D layered pnictogen; however, bismuthene and antimonene are also gaining interest in the design of electrochemical sensors. A perspective is given to the properties of the various layered pnictogens and factors affecting their stability, which also influence their sensing abilities. Examples using arsenene are still relatively sparse as this is not an attractive material for biosensing due to its acute toxicity. Tables with the most meaningful information from the available literature are presented.