UV–Vis–NIR Full‐Range Responsive Carbon Dots with Large Multiphoton Absorption Cross Sections and Deep‐Red Fluorescence at Nucleoli and In Vivo

Jiang, Lei; Ding, Haizhen; Xu, Mingsheng; Hu, Xiaolong; Li, Shengli; Zhang, Mingzhu; Zhang, Qiong; Wang, Qiyang; Lu, Siyu; Tian, Yupeng; Hong, Bo

doi:10.1002/smll.202000680

Cited by 153 publications

(123 citation statements)

References 77 publications

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“…In total, this structure is on the order of less than 10 nm in size. Typical absorption and sample emission spectra are shown in Figure 2 b, demonstrating the strong UV absorption and visible absorption tail inherent to carbon dot structures; studies have been conducted to further extend the absorption of carbon dots into the visible or even NIR region [ 37 , 38 , 39 ]. Carbon dots are also known to be capable of up-conversion photoluminescence [ 27 , 40 ] which will be discussed further in the context of antimicrobial applications in Section 4.2 .…”

Section: Characterization Of Carbon Nanodots: An Overview Of Key Smentioning

confidence: 99%

Carbon Nanodots in Photodynamic Antimicrobial Therapy: A Review

Knoblauch

Geddes

2020

Materials

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Antibiotic resistance development in bacteria is an ever-increasing global health concern as new resistant strains and/or resistance mechanisms emerge each day, out-pacing the discovery of novel antibiotics. Increasingly, research focuses on alternate techniques, such as antimicrobial photodynamic therapy (APDT) or photocatalytic disinfection, to combat pathogens even before infection occurs. Small molecule “photosensitizers” have been developed to date for this application, using light energy to inflict damage and death on nearby pathogens via the generation of reactive oxygen species (ROS). These molecular agents are frequently limited in widespread application by synthetic expense and complexity. Carbon dots, or fluorescent, quasi-spherical nanoparticle structures, provide an inexpensive and “green” solution for a new class of APDT photosensitizers. To date, reviews have examined the overall antimicrobial properties of carbon dot structures. Herein we provide a focused review on the recent progress for carbon nanodots in photodynamic disinfection, highlighting select studies of carbon dots as intrinsic photosensitizers, structural tuning strategies for optimization, and their use in hybrid disinfection systems and materials. Limitations and challenges are also discussed, and contemporary experimental strategies presented. This review provides a focused foundation for which APDT using carbon dots may be expanded in future research, ultimately on a global scale.

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Section: Characterization Of Carbon Nanodots: An Overview Of Key Smentioning

confidence: 99%

Carbon Nanodots in Photodynamic Antimicrobial Therapy: A Review

Knoblauch

Geddes

2020

Materials

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“…Moreover, the peak at 400.94 eV should be attributed to pyrrolic N 61,63 . The O 1s can be described by two peaks at 531.47 eV and 532.66 eV, which correspond to the C=O/OH and C‐O, respectively 61,64 …”

Section: Resultsmentioning

confidence: 99%

Hydrothermal synthesis of blue‐green emitting carbon dots based on the liquid products of biodegradation of coal

et al. 2021

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The liquid products of biodegradation of coal (LPBC) without further separation and purification are generally difficult to apply. In this study, a simple and low-cost method had been described for the preparation of carbon dots (CDs) by hydrothermal treatment of original LPBC. The as-synthesized CDs scence emission intensity when possessed narrowly distributed sizes and a mean diameter of 3.5 nm, and they showed significant excitation-dependent fluorescence emission. Meanwhile, the CDs exhibited good water solubility and photo-, metal ions-stability. Furthermore, the fluorescent emission intensity of CDs had been demonstrated sensitivity to pH value and temperature, showing great promise in sensor application.

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“…The XPS spectrum of the C1s (Fig. 2B) was deconvoluted into four peaks at 284.6, 285.7, 286.8, and 288.9 eV, which belonged to the C=C/C-C, C-N, C-O, and C=O bonds, [17][18][19][20] respectively. And the two peaks at 531.5 and 532.7 eV in the high-resolution O1s spectrum (Fig.…”

Section: Characterization and Optical Properties Of The Nfncbsmentioning

confidence: 99%

On-off Fluorescent Switching of Excitation-independent Near-ultraviolet Emission Carbon Nanobelts for Ultrasensitive Detection Nimesulide in Pharmaceutical Tablet

et al. 2020

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Here, we present an excellent strategy of unmodified near-ultraviolet fluorescence nitrogen doping carbon nanobelts (NFNCBs) for detecting nimesulide (Nim). After a simple hydrothermal process of uric acid and hydroquinone in DMF solvent, NFNCBs shows the shape of corroded stalactite-like composed of nanobelts aggregates, near-ultraviolet luminescence and a narrowed full width at half maximum. This could improve/change the electronic properties and surface chemical active site, as the result of a sensitive response to Nim. By employing this sensor, the quantitative measurement displays a linear range of 2.0 nM-100.0 μM with a lower detection limit of 0.21 nM (3σ/k) for Nim. Our work has provided a high selectivity for Nim, which may be capable for pharmaceutical sample analysis in real tablets. Furthermore, the results concerning the recoveries (96.3-106.2%) for real sample analysis indicate that this nanoprobe might expand a good avenue to design an effective luminescence nanoprobe for other biologically related drugs.

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UV–Vis–NIR Full‐Range Responsive Carbon Dots with Large Multiphoton Absorption Cross Sections and Deep‐Red Fluorescence at Nucleoli and In Vivo

Cited by 153 publications

References 77 publications

Carbon Nanodots in Photodynamic Antimicrobial Therapy: A Review

Carbon Nanodots in Photodynamic Antimicrobial Therapy: A Review

Hydrothermal synthesis of blue‐green emitting carbon dots based on the liquid products of biodegradation of coal

On-off Fluorescent Switching of Excitation-independent Near-ultraviolet Emission Carbon Nanobelts for Ultrasensitive Detection Nimesulide in Pharmaceutical Tablet

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