Heavy oil is treated as an undesirable raw material in traditional refining markets because of its low yield.However,its rich natural aromatic structure and heteroatomic compounds make it possible to be a precursor to...Heavy oil is treated as an undesirable raw material in traditional refining markets because of its low yield.However,its rich natural aromatic structure and heteroatomic compounds make it possible to be a precursor to large-scale production of carbon materials.Using heavy oil and three SDA products as precursors,we synthesized highly fluorescent multi-color carbon dots(CDs)by hydrothermal method,which can precisely control the photoluminescence wavelength in the range of 350-650 nm.The synthesized carbon dots have the advantages of good long-term stability and stability under extreme pH conditions and low price.Importantly,the carbon dots synthesized with asphalt as the precursor have the highest fluorescence quantum yield.X-ray photoelectron spectroscopy(XPS)is used to elucidate the effects of different precursor on emission color change and photoluminescence quantum yield(PLQY),thus providing a controlled tuning of the system for the functionalization of CDs.And we further used the CDs in macrophage labeling.This pathway gives a reliable and repeatable industry possibility and may boost the applications of CDs into reality.展开更多
基金Beijing Nova Program Interdisciplinary Studies Cooperative Project(No.Z181100006218138)Science Foundation of China University of Petroleum(Nos.2462020YXZZ018,2462019QNXZ02,2462018BJC004)for the support。
文摘Heavy oil is treated as an undesirable raw material in traditional refining markets because of its low yield.However,its rich natural aromatic structure and heteroatomic compounds make it possible to be a precursor to large-scale production of carbon materials.Using heavy oil and three SDA products as precursors,we synthesized highly fluorescent multi-color carbon dots(CDs)by hydrothermal method,which can precisely control the photoluminescence wavelength in the range of 350-650 nm.The synthesized carbon dots have the advantages of good long-term stability and stability under extreme pH conditions and low price.Importantly,the carbon dots synthesized with asphalt as the precursor have the highest fluorescence quantum yield.X-ray photoelectron spectroscopy(XPS)is used to elucidate the effects of different precursor on emission color change and photoluminescence quantum yield(PLQY),thus providing a controlled tuning of the system for the functionalization of CDs.And we further used the CDs in macrophage labeling.This pathway gives a reliable and repeatable industry possibility and may boost the applications of CDs into reality.
