Zero-Dimensional Carbon Nanomaterials for Fluorescent Sensing and Imaging

Yang, Zheng; Xu, Tiantian; Li, Hui; She, Mengyao; Chen, Jiao; Wang, Zhaohui; Zhang, Shengyong; Li, Jianli

doi:10.1021/acs.chemrev.3c00186

Cited by 58 publications

(32 citation statements)

References 847 publications

(1,946 reference statements)

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“… 45 There are extensive studies for more in-depth research and comprehensive summaries on the sensing and imaging applications of carbon-based NPs. 46 – 50 …”

Section: Advanced Nanotechnologiesmentioning

confidence: 99%

Nanotechnology’s frontier in combatting infectious and inflammatory diseases: prevention and treatment

Huang,

Guo,

et al. 2024

Sig Transduct Target Ther

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Inflammation-associated diseases encompass a range of infectious diseases and non-infectious inflammatory diseases, which continuously pose one of the most serious threats to human health, attributed to factors such as the emergence of new pathogens, increasing drug resistance, changes in living environments and lifestyles, and the aging population. Despite rapid advancements in mechanistic research and drug development for these diseases, current treatments often have limited efficacy and notable side effects, necessitating the development of more effective and targeted anti-inflammatory therapies. In recent years, the rapid development of nanotechnology has provided crucial technological support for the prevention, treatment, and detection of inflammation-associated diseases. Various types of nanoparticles (NPs) play significant roles, serving as vaccine vehicles to enhance immunogenicity and as drug carriers to improve targeting and bioavailability. NPs can also directly combat pathogens and inflammation. In addition, nanotechnology has facilitated the development of biosensors for pathogen detection and imaging techniques for inflammatory diseases. This review categorizes and characterizes different types of NPs, summarizes their applications in the prevention, treatment, and detection of infectious and inflammatory diseases. It also discusses the challenges associated with clinical translation in this field and explores the latest developments and prospects. In conclusion, nanotechnology opens up new possibilities for the comprehensive management of infectious and inflammatory diseases.

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“… 45 There are extensive studies for more in-depth research and comprehensive summaries on the sensing and imaging applications of carbon-based NPs. 46 – 50 …”

Section: Advanced Nanotechnologiesmentioning

confidence: 99%

Nanotechnology’s frontier in combatting infectious and inflammatory diseases: prevention and treatment

Huang,

Guo,

et al. 2024

Sig Transduct Target Ther

View full text Add to dashboard Cite

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“…As for metal-free quantum dots, the PL property is dominated by the size distribution, aromatic core, surface defects, and functional groups on the surface. 19–21 Heteroatom doping could well modulate the electronic structure and optical properties of pristine QDs and therefore affect the wavelength. 22 Researchers put forward that the carbonyl groups and hydroxyl on the edge of CDs could conjugate with the fused rings of the core and result in a red-shifted fluorescence wavelength.…”

Section: Introductionmentioning

confidence: 99%

Tailoring the energy gap to promote long wavelength emission of nitrogen-doped sulfur quantum dots via dual functional ethylenediamine

Huang,

Wei,

Zhang

et al. 2024

J. Mater. Chem. C

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“…Therefore, the development of a fast, convenient, and cost-effective detection and adsorption method is extremely necessary. Many advanced sensory and adsorption materials, including polymeric probes, quantum dots, supramolecular assemblies, AIE-Active compounds, graphene oxides, and carbon nanomaterials, have already been developed. − However, most of these materials have issues, such as tough synthesis, efficiency, and selectivity challenges. In this context, metal–organic frameworks (MOFs) are believed to be one of the promising materials for diminishing these challenges as a result of their noteworthy structural features like high surface area and wide range of pore environment modulation, which could favor host–guest supramolecular interactions. − However, some concerns, especially signal-to-noise ratio and chemical/water stability, should also be taken into account before application.…”

Section: Introductionmentioning

confidence: 99%

A Multifunctional Ca^II–Eu^III Heterometallic Organic Framework with Sensing and Selective Adsorption in Water

Li,

Jin,

Yang

et al. 2024

Inorg. Chem.

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With increasing global industrialization, it is urgent and challenging to develop multifunctional species for detection and adsorption in the environment. For this purpose, a novel anionic heterometallic organic framework, [, is hydrothermally synthesized based on chelidamic acid (H 3 CAM). Single crystal analysis shows that CaEuCAM features two different oxygenrich channels along the c-axis in which one CAM 3− bridges two sextuplecoordinated Ca 2+ and two octuple-coordinated Eu 3+ with a μ 4 -η 1 : η 1 : η 1 : η 1 : η 1 : η 1 new chelating and bridging mode. The characteristic bright red emission and superior hydrostability of CaEuCAM under harsh acidic and basic conditions benefit it by acting as a highly sensitive sensor for Fe 3+ and 3nitrophenol (3-NP) with extremely low LODs through remarkable quenching. The combination of experiments and theoretical calculations for sensing mechanisms shows that the competitive absorption and interaction are responsible for Fe 3+ -induced selective emission quenching, while that for 3-NP is the result of the synergism of host−guest chemistry and the inner filter effect. Meanwhile, the assimilation of negative charge plus channels renders CaEuCAM a highly selective adsorbent for methylene blue (MB) due to a synergy of electrostatic affinity, ion-dipole interaction, and size matching. Of note is the reusability of CaEuCAM toward Fe 3+ /3-NP sensing and MB adsorption besides its fast response. These findings could be very useful in guiding the development of multifunctional Ln-MOFs for sensing and adsorption applications in water media.

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Zero-Dimensional Carbon Nanomaterials for Fluorescent Sensing and Imaging

Cited by 58 publications

References 847 publications

Nanotechnology’s frontier in combatting infectious and inflammatory diseases: prevention and treatment

Nanotechnology’s frontier in combatting infectious and inflammatory diseases: prevention and treatment

Tailoring the energy gap to promote long wavelength emission of nitrogen-doped sulfur quantum dots via dual functional ethylenediamine

A Multifunctional Ca^II–Eu^III Heterometallic Organic Framework with Sensing and Selective Adsorption in Water

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Zero-Dimensional Carbon Nanomaterials for Fluorescent Sensing and Imaging

Cited by 58 publications

References 847 publications

Nanotechnology’s frontier in combatting infectious and inflammatory diseases: prevention and treatment

Nanotechnology’s frontier in combatting infectious and inflammatory diseases: prevention and treatment

Tailoring the energy gap to promote long wavelength emission of nitrogen-doped sulfur quantum dots via dual functional ethylenediamine

A Multifunctional CaII–EuIII Heterometallic Organic Framework with Sensing and Selective Adsorption in Water

Contact Info

Product

Resources

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A Multifunctional Ca^II–Eu^III Heterometallic Organic Framework with Sensing and Selective Adsorption in Water