Emerging single‐atom catalysts in electrochemical biosensing

Electrochemical Biosensing with Carbon Nanotubes

Biosensing at an Individually Addressable Electrochemical Array

Do Carbon Nanotubes contribute to Electrochemical Biosensing?

Carbon nanotubes have been attracting a lot of interest as electron transfer mediators to enhance electrochemical biosensing. The main reason behind this is usually recognized in terms of augmented electrochemical active surface area. The aim of this paper is to review other phenomena that occur at the electrochemical interface. Three distinct features of these phenomena mainly appear in electr...

Fullerenes in Electrochemical Catalytic and Affinity Biosensing: A Review

Nanotechnology is becoming increasingly important in the field of (bio)sensors. The performance and sensitivity of electrochemical biosensors can be greatly improved by the integration of nanomaterials into their construction. In this sense, carbon nanomaterials have been widely used for preparation of biosensors due to their ability to enhance electron-transfer kinetics, high surface-to-volume...

Carbon Nanostructures for Tagging in Electrochemical Biosensing: A Review

Growing demand for developing ultrasensitive electrochemical bioassays has led to the design of numerous signal amplification strategies. In this context, carbon-based nanomaterials have been demonstrated to be excellent tags for greatly amplifying the transduction of recognition events and simplifying the protocols used in electrochemical biosensing. This relevant role is due to the carbon-nan...