@article{Opoku2025, 
author = {Henry Opoku and Junkai Ren and Xin Zhou and Peijuan Zhang and Shi Tang and Dongfeng Dang and Ludvig Edman and Jia Wang},
title = {Efficient UV emission from carbon dots derived from a green-tea extract},
year = {2025},
journal = {Nano Research},
volume = {18},
number = {4},
pages = {94907321},
keywords = {carbon dots, biomass, aggregation-induced-emission, cell proliferation inhibitor, ultraviolet (UV) emission},
url = {https://www.sciopen.com/article/10.26599/NR.2025.94907321},
doi = {10.26599/NR.2025.94907321},
abstract = {Emissive carbon dots (CDs) that are synthesized from biomass can be highly sustainable, but the number of reported biomass-derived CDs that emit in the ultraviolet (UV) range is small. Moreover, current commercial UV-emitting materials rely heavily on the use of non-sustainable resources, such as rare metals, heavy metals, and petroleum chemicals. This yields that the development of efficient biomass-derived UV-CDs is desired. Here, we report on the hydrothermal conversion of a common green-tea extract (Polyphenon 60) into UV-CDs, which feature a photoluminescence (PL) peak wavelength of 384 nm, a full width at half maximum of 72 nm, and a photoluminescence quantum yield (PLQY) of 17% in water. By shifting to a lower-polarity solvent of 3-phenoxyanisole, the PLQY is strongly enhanced to 81%, and the PL peak blue-shifts to 370 nm, while the maximum solubility is lowered. These observations support the notion that the UV-CDs feature aggregation-induced emission and that they are endowed with hydrophilic surface groups. Moreover, the findings of excitation-wavelength-independent PL and a nanosecond-level short emission lifetime reveal that it is a single distinct fluorophore that produces the UV emission. We finally report preliminary results that the UV-CDs exhibit potential for inhibiting the proliferation of cancer cells.}
}