Near-Ultraviolet to Near-Infrared Fluorescent Nitrogen-Doped Carbon Dots with Two-Photon and Piezochromic Luminescence

Abstract: Carbon dots (CDs) have gained intensive interests owing to their unique structure and excellent optoelectronic performances. However, to acquire CDs with a broadband emission spectrum still remains an issue. In this work, nitrogen-doped CDs (N-CDs) with near-ultraviolet (NUV), visible, and near-infrared (NIR) emission were synthesized via one-pot solvothermal strategy, and the excitation-independent NUV and NIR emission and excitation-dependent visible emission were observed in the photoluminescence (PL) spect… Show more

“…Further advancement is needed to improve the PL QY for high intensity or contrast image. Recently, several groups have been reported highly fluorescent red-emissive CDs with PL QY as high as 86% [16] and the emission peak was also extended NIR region (725 nm) [17]. This progress shined light of the further application of CDs in the bio-related applications [18].…”

“…The two-photon emission provides another potential route to overcome the low tissue penetration depth of the short-wavelength light source. NIR light has large penetration depth, which can be used as the excitation light and generate fluorescence in the visible light region for easy observation [17,20,21]. Furthermore, room temperature phosphorescence (RTP) properties of CDs were observed in the various organic, polymer or inorganic matrixes.…”

Recent advance of carbon dots in bio-related applications

“…Further advancement is needed to improve the PL QY for high intensity or contrast image. Recently, several groups have been reported highly fluorescent red-emissive CDs with PL QY as high as 86% [16] and the emission peak was also extended NIR region (725 nm) [17]. This progress shined light of the further application of CDs in the bio-related applications [18].…”

“…The two-photon emission provides another potential route to overcome the low tissue penetration depth of the short-wavelength light source. NIR light has large penetration depth, which can be used as the excitation light and generate fluorescence in the visible light region for easy observation [17,20,21]. Furthermore, room temperature phosphorescence (RTP) properties of CDs were observed in the various organic, polymer or inorganic matrixes.…”

Recent advance of carbon dots in bio-related applications

“…Red fluorescence emitting materials are favorable for many applications, particularly in the biomedical fields, because blue light and ultraviolet light usually cause damage to biological tissues [22,23]. Since the discovery of CDs, researchers have explored a variety of synthesis pathways to prepare CDs from a variety of carbon sources, such as arc discharge, laser ablation [24,25], electrochemical synthesis [26,27], microwave [28,29], acidic oxidation, solvothermal methods [30,31], and hydrothermal methods [32][33][34][35]. Among these, hydrothermal and solvothermal methods are environmentally friendly and economical synthesis methods because the as-prepared CDs do not require further passivation.…”

Near-infrared emissive carbon dots with 33.96% emission in aqueous solution for cellular sensing and light-emitting diodes

“…The bands at 1583 and 1586 cm −1 are denoted as the –N–H asymmetrical stretching vibration and the C=C stretching vibration is evinced by the 1506 cm −1 peak [ 39 ]. The bands at 2156 and 2953 cm −1 indicate the aromatic C=C stretching vibration and C–H aliphatic and aromatic stretching vibration [ 41 ]. The peaks at 1088 and 1100 cm −1 are due to the C–O stretching vibration and =C–H in-plane vibration [ 42 ].…”

Photocatalytic Degradation of Organic Dyes and Antimicrobial Activities by Polyaniline–Nitrogen-Doped Carbon Dot Nanocomposite