Single step synthesis of size-controlled carbon quantum dots using electrochemical etching of graphite

TL;DR

This paper introduces a simple one-step electrochemical method to synthesize size-controlled carbon quantum dots from graphite, enabling their use in bio-imaging and sensing applications.

Contribution

A novel, straightforward electrochemical approach for size-controlled CQD synthesis using graphite electrodes and SDS as a capping agent.

Findings

CQDs of different sizes were successfully synthesized.

Size control achieved through adjustable current during etching.

Potential applications in bio-imaging and sensing.

Abstract

Carbon Quantum dots (CQD's) are nanoscale sp2 hybridized carbon particles. In this work, we present a simple one-step synthesis of CQDs from the electrochemical shredding method and technique to control its size during its growth process. A graphite rod extracted from commercially available pencil batteries was used as electrode: source of carbon. CQDs of varying sizes were synthesized through controlled current to the solution for etching and Sodium dodecyl sulfate (SDS) as capping agent during growth. CQD's of controlled sizes as formed can be used as fluorescent marker for bio-imaging and sensing platform for wide range of applications.