“…Reproduced with permission. [ 134 ] Copyright 2022, Elsevier. e) A linear relationship between the temperature and fluorescence intensity of R‐CDs.…”
Section: The Effect Of Other Factors On Fluorescencementioning
confidence: 99%
“…Reproduced with permission. [ 134 ] Copyright 2022, Elsevier. f) Solvent‐dependent‐normalized fluorescence plots of CDs excited at 375 nm.…”
Section: The Effect Of Other Factors On Fluorescencementioning
confidence: 99%
“…obtained R‐CDs with excellent fluorescence emission by a simple solvothermal method using oPD as a precursor. [ 134 ] R‐CDs in water showed almost no fluorescence at 15 °C. The fluorescence intensity of R‐CDs gradually increased with the increase in temperature.…”
Section: The Effect Of Other Factors On Fluorescencementioning
confidence: 99%
“…Inset: the images of R-CDs at 20 °C and 60 °C under 365 nm UV light. Reproduced with permission [134]. Copyright 2022, Elsevier.…”
mentioning
confidence: 99%
“…e) A linear relationship between the temperature and fluorescence intensity of R-CDs. Reproduced with permission [134]. Copyright 2022, Elsevier.…”
Fluorescent carbon dots are a novel type of nanomaterial. Due to their excellent optical properties, they have extensive application prospects in many fields. Studying the formation process and fluorescence mechanism of CDs will assist scientists in understanding the synthesis of CDs and guide more profound applications. Due to their conjugated structures, aromatic compounds have been continuously used to synthesize CDs, with emissions ranging from blue to NIR. There is a lack of a systematic summary of the formation process and fluorescence mechanism of aromatic precursors to form CDs. In this review, the formation process of CDs is first categorized into three main classes according to the precursor types of aromatic compounds: amines, phenols, and polycyclics. And then, the fluorescence mechanism of CDs synthesized from aromatic compounds is summarized. The challenges and prospects are proposed in the last section.
“…Reproduced with permission. [ 134 ] Copyright 2022, Elsevier. e) A linear relationship between the temperature and fluorescence intensity of R‐CDs.…”
Section: The Effect Of Other Factors On Fluorescencementioning
confidence: 99%
“…Reproduced with permission. [ 134 ] Copyright 2022, Elsevier. f) Solvent‐dependent‐normalized fluorescence plots of CDs excited at 375 nm.…”
Section: The Effect Of Other Factors On Fluorescencementioning
confidence: 99%
“…obtained R‐CDs with excellent fluorescence emission by a simple solvothermal method using oPD as a precursor. [ 134 ] R‐CDs in water showed almost no fluorescence at 15 °C. The fluorescence intensity of R‐CDs gradually increased with the increase in temperature.…”
Section: The Effect Of Other Factors On Fluorescencementioning
confidence: 99%
“…Inset: the images of R-CDs at 20 °C and 60 °C under 365 nm UV light. Reproduced with permission [134]. Copyright 2022, Elsevier.…”
mentioning
confidence: 99%
“…e) A linear relationship between the temperature and fluorescence intensity of R-CDs. Reproduced with permission [134]. Copyright 2022, Elsevier.…”
Fluorescent carbon dots are a novel type of nanomaterial. Due to their excellent optical properties, they have extensive application prospects in many fields. Studying the formation process and fluorescence mechanism of CDs will assist scientists in understanding the synthesis of CDs and guide more profound applications. Due to their conjugated structures, aromatic compounds have been continuously used to synthesize CDs, with emissions ranging from blue to NIR. There is a lack of a systematic summary of the formation process and fluorescence mechanism of aromatic precursors to form CDs. In this review, the formation process of CDs is first categorized into three main classes according to the precursor types of aromatic compounds: amines, phenols, and polycyclics. And then, the fluorescence mechanism of CDs synthesized from aromatic compounds is summarized. The challenges and prospects are proposed in the last section.
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