Au/N-Doped Carbon Dot Nanozymes as Light-Controlled Anti- and Pro-Oxidants

Zhao, Jun; Wang, Hanhan; Geng, Hongqi; Yang, Qi; Tong, Yuping; He, Weiwei

doi:10.1021/acsanm.1c01215

Cited by 35 publications

(17 citation statements)

References 51 publications

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“…The radicals are responsible for the strong fluorescence emissions centered at 435 nm in the absence of Au/NC, while the emission was reduced in the presence of a catalyst. 118 Furthermore, the synthesis methods can significantly influence the activity of the nano-carbon nanozymes. Herein, Dong et al synthesized the enzyme-like CDs (e-CDs) via the solvothermal method in N , N -dimethylformamide (DMF).…”

Section: Designs and Advancement In Nano-carbon Based Nanozymesmentioning

confidence: 99%

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Prospects of nano-carbons as emerging catalysts for enzyme-mimetic applications

et al. 2022

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Section: Designs and Advancement In Nano-carbon Based Nanozymesmentioning

confidence: 99%

“…The mechanism was studied by the generation of • OH with the help of Fenton reagent. The radicals are responsible for the strong fluorescence emissions centered at 435 nm in absence of Au/NC while the emission was reduced in presence of catalyst 118. Further, the synthesis methods can also significantly influence the activity of nano-carbon nanozymes.…”

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confidence: 99%

Prospects of nano-carbons as emerging catalysts for enzyme-mimetic applications

et al. 2022

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“…Another recent study using Au gold carbon nano dots (Au/NC) was reported by Zhao et al The Au/NC prepared exhibited superoxide dismutase (SOD) like activity and depleted reactive oxygen species and free radicals in dark. However, on irradiation with visible light, the same Au/NC enhanced the generation of HO·, O 2 − , 1 O 2 and catalyzed the oxidation reactions ( Zhao et al, 2021 ). Thus, smart quantum dots can be designed to induce cell protective and cytotoxic activities, which can be controlled by a light switch.…”

Section: Semiconductor Quantum Dotsmentioning

confidence: 99%

Semiconductor quantum dots for photodynamic therapy: Recent advances

Uprety

Abrahamse

2022

Front. Chem.

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Photodynamic therapy is a promising cancer treatment that induces apoptosis as a result of the interactions between light and a photosensitizing drug. Lately, the emergence of biocompatible nanoparticles has revolutionized the prospects of photodynamic therapy (PDT) in clinical trials. Consequently, a lot of research is now being focused on developing non-toxic, biocompatible nanoparticle-based photosensitizers for effective cancer treatments using PDT. In this regard, semiconducting quantum dots have shown encouraging results. Quantum dots are artificial semiconducting nanocrystals with distinct chemical and physical properties. Their optical properties can be fine-tuned by varying their size, which usually ranges from 1 to 10 nm. They present many advantages over conventional photosensitizers, mainly their emission properties can be manipulated within the near IR region as opposed to the visible region by the former. Consequently, low intensity light can be used to penetrate deeper tissues owing to low scattering in the near IR region. Recently, successful reports on imaging and PDT of cancer using carbon (carbon, graphene based) and metallic (Cd based) based quantum dots are promising. This review aims to summarize the development and the status quo of quantum dots for cancer treatment.

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“…The enzymatic properties of CDs are considerably improved through the formation of hybrids with other materials (e.g., Au, Pd, Fe 3 O 4 , Mn 3 O 4 , and CeO 2 ) [24][25][26][27]. Metal ions (e.g., Mn and Fe) with multiple oxidation states promote the enzymatic activity of CDs [28][29][30][31]. The simple addition of metal ions and chelate molecules to the reaction solution accelerates the enzymatic activity of CDs at a neutral pH [32].…”

Section: Introductionmentioning

confidence: 99%

“…The simple addition of metal ions and chelate molecules to the reaction solution accelerates the enzymatic activity of CDs at a neutral pH [32]. Doping metal species into a CD framework can act as a catalase mimic and reduce oxidative-stress-related damage on CDs by decomposing H 2 O 2 to H 2 O and O 2 [28]. Metal ions can also influence the formation of CDs and induce variations in the chemical structure of CDs during their synthesis, leading to the enhancement of physicochemical properties [29].…”

Section: Introductionmentioning

confidence: 99%

Highly Enhanced Enzymatic Activity of Mn-Induced Carbon Dots and Their Application as Colorimetric Sensor Probes

2021

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Nanomaterial-based enzyme mimetics (nanozymes) have attracted significant interest because of their lower cost and higher stability compared to natural enzymes. In this study, we focused on improving the enzymatic properties of metal induced N-doped carbon dots (N-CDs), which are nanozymes of interest, and their applications for sensory systems. For this purpose, Mn(acetate)2 was introduced during the synthetic step of N-doped carbon dots, and its influence on the enzymatic properties of Mn-induced N-CDs (Mn:N-CDs) was investigated. Their chemical structure was analyzed through infrared spectroscopy and X-ray photoelectron spectrometry; the results suggest that Mn ions lead to the variation in the population of chemical bonding in Mn:N-CDs, whereas these ions were not incorporated into N-CD frameworks. This structural change improved the enzymatic properties of Mn:N-CDs with respect to those of N-CDs when the color change of a 3,3′,5,5′-tetramethylbenzidine/H2O2 solution was examined in the presence of Mn:N-CDs and N-CDs. Based on this enhanced enzymatic property, a simple colorimetric system with Mn:N-CDs was used for the detection of γ-aminobutyric acid, which is an indicator of brain-related disease. Therefore, we believe that Mn:N-CDs will be an excellent enzymatic probe for the colorimetric sensor system.

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Au/N-Doped Carbon Dot Nanozymes as Light-Controlled Anti- and Pro-Oxidants

Cited by 35 publications

References 51 publications

Prospects of nano-carbons as emerging catalysts for enzyme-mimetic applications

Prospects of nano-carbons as emerging catalysts for enzyme-mimetic applications

Semiconductor quantum dots for photodynamic therapy: Recent advances

Highly Enhanced Enzymatic Activity of Mn-Induced Carbon Dots and Their Application as Colorimetric Sensor Probes

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