Waste utilization is not only the protection of the environment and the practice of green chemistry,but also one of the ways to develop new materials.Herein,we report two biomass carbon dots which prepared from bee po...Waste utilization is not only the protection of the environment and the practice of green chemistry,but also one of the ways to develop new materials.Herein,we report two biomass carbon dots which prepared from bee pollen waste by one-step hydrothermal method.The new two carbon dots were used in sensing,cell imaging and plant growth regulation.The differences in the structure and properties of the two carbon dots were evaluated by TEM,XPS,TG and various spectroscopic methods.Both two carbon dots contain abundant functional groups,polyatomic doping,excellent water solubility and stable photoluminescence.Due to these good properties,we have demonstrated its versatile applications in Fe3+sensing,cell imaging and plant growth regulation.It shows sensitive and specific Fe^(3+) responsiveness and good biocompatibility.This research provides a green and simple method for the recycling and reuse of bee pollen waste,and also provides a reference for the application of biomass carbon dots.展开更多
Using simple and eco-friendly ethanol solvothermal treatment,dual-emission biomass carbon quantum dots(D-BCQDs)were synthesized from biomass viburnum awabuki leaves.Under excitation with 413 nm wavelength light two em...Using simple and eco-friendly ethanol solvothermal treatment,dual-emission biomass carbon quantum dots(D-BCQDs)were synthesized from biomass viburnum awabuki leaves.Under excitation with 413 nm wavelength light two emission peaks appeared at 490 and 675 nm and the dots could be tuned to emit crimson,red,purplish red,purple and blue-gray fluorescence by changing the solvothermal temperature from 140℃ to 160,180,200 and 240℃,respectively.XPS and FTIR characterization in-dicated that the fluorescence color was mainly determined by surface oxidation defects,elemental nitrogen and sp^(2)-C/sp^(3)-C hybrid-ized structural domains.The D-BCQDs could not only detect Fe^(3+)or Cu^(2+),but also quantify the concentration ratio of Fe^(3+)to Cu^(2+)in a solution containing both,demonstrating their potential applications in the simultaneous detection of Fe^(3+)and Cu^(2+)ions.展开更多
基金the National Natural Science Foundation of China(No.21877082)Sichuan Science and Technology Program(No.2021YFG0291)+2 种基金International Science and Technology Innovation Cooperation Project of Sichuan Province(No.21GJHZ0092)Sichuan Province Innovation and Entrepreneurship Project(No.S202110650037)the Undergraduate Scientific and Technological Innovation Project(No.2020029),Xihua University。
文摘Waste utilization is not only the protection of the environment and the practice of green chemistry,but also one of the ways to develop new materials.Herein,we report two biomass carbon dots which prepared from bee pollen waste by one-step hydrothermal method.The new two carbon dots were used in sensing,cell imaging and plant growth regulation.The differences in the structure and properties of the two carbon dots were evaluated by TEM,XPS,TG and various spectroscopic methods.Both two carbon dots contain abundant functional groups,polyatomic doping,excellent water solubility and stable photoluminescence.Due to these good properties,we have demonstrated its versatile applications in Fe3+sensing,cell imaging and plant growth regulation.It shows sensitive and specific Fe^(3+) responsiveness and good biocompatibility.This research provides a green and simple method for the recycling and reuse of bee pollen waste,and also provides a reference for the application of biomass carbon dots.
文摘Using simple and eco-friendly ethanol solvothermal treatment,dual-emission biomass carbon quantum dots(D-BCQDs)were synthesized from biomass viburnum awabuki leaves.Under excitation with 413 nm wavelength light two emission peaks appeared at 490 and 675 nm and the dots could be tuned to emit crimson,red,purplish red,purple and blue-gray fluorescence by changing the solvothermal temperature from 140℃ to 160,180,200 and 240℃,respectively.XPS and FTIR characterization in-dicated that the fluorescence color was mainly determined by surface oxidation defects,elemental nitrogen and sp^(2)-C/sp^(3)-C hybrid-ized structural domains.The D-BCQDs could not only detect Fe^(3+)or Cu^(2+),but also quantify the concentration ratio of Fe^(3+)to Cu^(2+)in a solution containing both,demonstrating their potential applications in the simultaneous detection of Fe^(3+)and Cu^(2+)ions.
