Fluorescence enhancement of lignin-based carbon quantum dots by concentration-dependent and electron-donating substituent synergy and their cell imaging applications

ACS Applied Materials & Interfaces 2021

Fluorescence enhancement of lignin-based carbon quantum dots by concentration-dependent and electron-donating substituent synergy and their cell imaging applications

Siyu Zhao, Xinrui Chen, Caixia Zhang, Peitao Zhao, Arthur J. Ragauskas, Xueping Song*.

摘要：Black liquor is an important pollutant in the pulp industry, but it also has the potential for high-value utilization. In this study, lignin extracted from black liquor was hydrothermally prepared into lignin-based carbon quantum dots (L-CQDs) using a one-pot method. Physicochemical characterization suggested that the L-CQDs exhibited a lamellar core–shell multilayered graphene structure surrounded by oxygen-containing functional groups. The fluorescence intensity of the L-CQDs was strengthened depending on their own concentration dependence and the doping of external groups. The fluorescence intensity of L-CQDs varied between 89.09 and 183.66 under different concentrations, and the most intense fluorescence (183.66) was obtained at 0.1 mg mL–1. At hydroxyl and amino adsorption capacities of 11.08 and 0.98 mmol g–1, the hydroxylated RL-CQDs-5 and aminated NL-CQDs-3 exhibited the highest fluorescence intensities at 689.22 and 605.39, respectively. Moreover, when pristine L-CQDs were sequentially aminated and hydroxylated, the NRL-CQDs’ fluorescence intensity reached 1224.92. Cell imaging experiments proved that cells cultivated with NRL-CQDs have brighter fluorescence compared with L-CQDs. The results will render L-CQDs more suitable for practical applications.

DOI：https://doi.org/10.1021/acsami.1c20648