Progress in the preparation of Prussian blue-based nanomaterials for biomedical applications

Lü, Kun; Zhu, Xia; Li, Yan; Gu, Ning

doi:10.1039/d2tb02617a

Cited by 30 publications

(20 citation statements)

References 171 publications

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“…PB NPs exhibit good POD-like activity, physicochemical properties, and biosafety for widespread utilization in the biomedical field , and were used as a representative to study the double fitting method. PB NPs were fabricated as previously reported .…”

Section: Resultsmentioning

confidence: 99%

Determination of the Maximum Velocity of a Peroxidase-like Nanozyme

Wang

Wei

2023

Anal. Chem.

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Nanozymes are functional nanomaterials with enzyme-like activities, which have good stability and specific nanoscale properties. Among them, peroxidase-like (POD-like) nanozymes with two substrates are the biggest chunk and have been widely applied in biomedical and environmental fields. Maximum velocity (V max) is an essential kinetic parameter, accurate measurements of which can help in activity comparisons, mechanism studies, and nanozyme improvements. At present, the standardized assay determines the catalytic kinetics of POD-like nanozymes by a single fitting based on the Michaelis–Menten equation. However, the true V max cannot be confirmed by this method due to the test condition that the concentration of a fixed substrate is finite. Here, a double fitting method to determine the intrinsic V max of POD-like nanozymes is presented, which breaks through the limited concentration of the fixed substrate by an additional Michaelis–Menten fitting. Furthermore, a comparison of the V max among five typical POD-like nanozymes validates the accuracy and feasibility of our method. This work provides a credible method to determine the true V max of POD-like nanozymes, helping in activity comparisons and facilitating studies on the mechanism and development of POD-like nanozymes.

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Section: Resultsmentioning

confidence: 99%

Determination of the Maximum Velocity of a Peroxidase-like Nanozyme

Wang

Wei

2023

Anal. Chem.

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“…This approach has proven to be instrumental in fine-tuning the catalytic properties of PBNZs and improving their overall performance. 6,9 Moreover, the surface modification of PBNZs using a wide range of biomolecules offers several advantages. By coating PBNZs with targeting polymers or biomolecules, their stability in physiological solutions can be enhanced, ensuring their long-term functionality in biomedical applications.…”

Section: 23mentioning

confidence: 99%

“…This approach has proven to be instrumental in fine-tuning the catalytic properties of PBNZs and improving their overall performance. 6,9…”

Section: The Discovery and Modulation Of The Ros-scavenging Activity ...mentioning

confidence: 99%

“…Recently, our research group published a comprehensive review discussing the progress in PBNZ preparation methods, encompassing both conventional synthesis and innovative approaches. 9 In this current review, our emphasis will be on the diverse applications of PBNZs in combating a wide range of diseases, such as Alzheimer's disease, ischemic stroke, atherosclerosis, vascular restenosis, osteoarthritis, acute pancreatitis, inflammatory bowel disease, Parkinson's disease, and more.…”

Section: Introductionmentioning

confidence: 99%

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Prussian blue nanozymes: progress, challenges, and opportunities

Long

Duan

et al. 2023

Nanoscale

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“…Since then, the investigation on MV compounds 4 has attracted great attention from chemists due to their particular structural, redox, spectroscopic, and charge transfer properties. 5 These make them potential in molecular electronics, 6 molecular magnetism, 7 molecular conductors, 8 non-linear optical materials, 9 and so on. The MV compounds were categorized by Robin and Day 10 into three classes depending on the extent of charge transfer or electron delocalization.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and structural and spectroscopic properties of a cyanido-bridged mixed-valence compound [Fe–NC–Ru–CN–Fe]

Liu

Xiong

et al. 2023

New J. Chem.

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Cyanide-bridged compounds trans-[Cp(dppe)FeII(NC)RuII(py)4(CN)FeII(dppe)Cp][PF6]2 (1, py = pyridine, dppe = bis (diphenylphosphino) ethane, Cp = cyclopentadienyl anion), trans-[Cp(dppe)FeII(NC)RuII(py)4(CN)FeIII(dppe)Cp][PF6]2 (2), trans-[Cp(dppe)FeIII(NC)RuII(py)4(CN)FeIII(dppe)Cp][PF6]2 (3) , trans-[Cp(dppe)FeII(NC)RuII(MeOpy)4(CN)FeII(dppe)Cp][PF6]2 ( 4, MeOpy = 4-methoxypyridine) and trans-[Cp(dppe)FeIII(NC)RuII(MeOpy)4(CN)FeII(dppe)Cp][PF6]3 (5)...

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Progress in the preparation of Prussian blue-based nanomaterials for biomedical applications

Abstract: Prussian blue (PB) is composed of the coordination network of Fe2+–C≡N–Fe3+ mixed valence state as a classic metal complex, which include C atom and Fe2+ (low spin), N atom and...

Cited by 30 publications

References 171 publications

Determination of the Maximum Velocity of a Peroxidase-like Nanozyme

Determination of the Maximum Velocity of a Peroxidase-like Nanozyme

Prussian blue nanozymes: progress, challenges, and opportunities

Synthesis and structural and spectroscopic properties of a cyanido-bridged mixed-valence compound [Fe–NC–Ru–CN–Fe]

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