Carbon quantum dots (CDs) are promising nanomaterials in biomedical, photocatalytical and photoelectronic applications. However, determining how to explore an ideal precursor for a renewable carbon resource is still an interesting challenge. Here, for the first time, we report that renewable wastes of bagasse as a new precursor were prepared for fluorescent CDs by a hydrothermal carbonization (HTC) process. The characterization results show that such bagasse-derived CDs are monodispersed, contain quasi spherical particles with a diameter of about 1.8 nm and exhibit favorable photoluminescence properties, super-high photostability and good dispersibility in water. Most importantly, bagasse-derived CDs have good biocompatibility and can be easily and quickly internalized by living cancer cells; they can also be used for multicolour biolabeling and bioimaging in cancer cells. It is suggested that bagasse-derived CDs might have potential applications in biomedical and photoelectronic...
Fengyi Du, Miaomiao Zhang, Xiaofeng Li, Jianan Li, Xinyi Jiang, Zhang Li, Ye Hua, Genbao Shao, Jie Jin, Qixiang Shao, Ming Zhou and Aihua Gong
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Fengyi Du, Miaomiao Zhang, Xiaofeng Li, Jianan Li, Xinyi Jiang, Zhang Li, Ye Hua, Genbao Shao, Jie Jin, Qixiang Shao, Ming Zhou and Aihua Gong
Click for full article
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