Modification of Carbon Dots for Metal‐Ions Detection

Abstract: It is very appealing to develop cheap, highly sensitive and efficient metal ion fluorescence sensors as traditional instrument methods are inherently costly and time‐consuming. Carbon dots (CDs) are widely used for sensing metal ions, attributing to their merits of good biocompatibility, low toxicity, easy surface modification and excellent photostability. This article reviewed the research progress of CDs as metal ion sensors in recent years, and studied their modification methods and detection performances. … Show more

“…The modication of CDs is vital for the improvement of physiochemical features, particularly their optical properties. Recently, Fan et al 98 reviewed the metal ion sensing application of modied CDs. The inherent modications in CDs can be achieved either by heteroatom doping or surface functionalization.…”

“…3,42 Consequently, doped CDs show better possibility for diverse applications due to the improvement in their optical characteristics and QY. 3,42,98 N is one of the most common doping elements (atomic radius of C/ N: 0.0914/0.092 nm), which is incorporated in CDs to improve their uorescence properties. 99 A green precursor (glucose) was HT treated in the presence of NH 3 to produce N-CDs.…”

An overview on animal/human biomass-derived carbon dots for optical sensing and bioimaging applications

“…The modication of CDs is vital for the improvement of physiochemical features, particularly their optical properties. Recently, Fan et al 98 reviewed the metal ion sensing application of modied CDs. The inherent modications in CDs can be achieved either by heteroatom doping or surface functionalization.…”

“…3,42 Consequently, doped CDs show better possibility for diverse applications due to the improvement in their optical characteristics and QY. 3,42,98 N is one of the most common doping elements (atomic radius of C/ N: 0.0914/0.092 nm), which is incorporated in CDs to improve their uorescence properties. 99 A green precursor (glucose) was HT treated in the presence of NH 3 to produce N-CDs.…”

An overview on animal/human biomass-derived carbon dots for optical sensing and bioimaging applications

Carbon dots and dendrimers nanohybrids: from synthesis to applications

Preparation of Microcrystalline Cellulose-Derived Carbon Dots as a Sensor for Fe3+ Detection