Immobilizing Enzymes on Noble Metal Hydrogel Nanozymes with Synergistically Enhanced Peroxidase Activity for Ultrasensitive Immunoassays by Cascade Signal Amplification

Huang, Jiajia; Jiao, Lei; Xu, Weiqing; Fang, Qie; Wang, Hengjia; Cai, Xiaoli; Yan, Hongye; Gu, Wenling; Zhu, Chengzhou

doi:10.1021/acsami.1c09100

Cited by 61 publications

(33 citation statements)

References 51 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Section: Detection Of Other Biomarkersmentioning

confidence: 99%

“…Human epidermal growth factor receptor 2 (HER2), a well-known breast cancer marker, could be detected using the colorimetric immunoassay with a limit of detection of 1.5 ng/mL, which was much lower than its clinical cutoff value (15 ng mL −1 ). In another work, POD-like PdCu hydrogel nanozymes with a hierarchically porous structure were employed to load the natural enzyme HRP to obtain PdCu@HRP [109]. In addition to the improved stability and reusability, PdCu@HRP showed higher enzymatic activities than HRP and PdCu hydrogels alone due to the synergistic effect.…”

Section: Detection Of Other Biomarkersmentioning

confidence: 99%

See 1 more Smart Citation

Nanozymes: Versatile Platforms for Cancer Diagnosis and Therapy

2022

View full text Add to dashboard Cite

Natural enzymes usually suffer from high production cost, ease of denaturation and inactivation, and low yield, making them difficult to be broadly applicable. As an emerging type of artificial enzyme, nanozymes that combine the characteristics of nanomaterials and enzymes are promising alternatives. On the one hand, nanozymes have high enzyme-like catalytic activities to regulate biochemical reactions. On the other hand, nanozymes also inherit the properties of nanomaterials, which can ameliorate the shortcomings of natural enzymes and serve as versatile platforms for diverse applications. In this review, various nanozymes that mimic the catalytic activity of different enzymes are introduced. The achievements of nanozymes in different cancer diagnosis and treatment technologies are summarized by highlighting the advantages of nanozymes in these applications. Finally, future research directions in this rapidly developing field are outlooked."Image missing"

show abstract

Section: Detection Of Other Biomarkersmentioning

confidence: 99%

Section: Detection Of Other Biomarkersmentioning

confidence: 99%

Nanozymes: Versatile Platforms for Cancer Diagnosis and Therapy

2022

View full text Add to dashboard Cite

show abstract

“…Since the first discovery of peroxidase-mimic activities in magnetic Fe 3 O 4 nanoparticles (NPs), numbers of nanomaterials based on vanadium oxides, , noble metals (Au, Ag, Pt, and Pd), − copper oxides, − carbon, − and manganous − have been reported as antioxidant enzyme mimics. In addition, novel single-atom nanozymes such as the Fe-N-C electrocatalyst have been also discovered with exceptional per(oxidase)-like activity and widely explored as alternatives to natural enzymes. , Developing nanozymes with biocatalytic properties in a biological context is intriguing to peruse more advanced functions of natural enzymes, such as cost-effectiveness, mass production, stability, and better tolerance toward harsh environments. , Lin et al first reported a copper tannic acid coordination for ROS scavenging in cigarette smoke, opening up an opportunity for the modification of cigarette filters by nanozymes. However, challenges for meeting demanding applications also remained because of its intrinsic selective reaction and limited antioxidant capacity.…”

Section: Introductionmentioning

confidence: 99%

“…32,33 Developing nanozymes with biocatalytic properties in a biological context is intriguing to peruse more advanced functions of natural enzymes, such as cost-effectiveness, mass production, stability, and better tolerance toward harsh environments. 34,35 Lin et al 36 first reported a copper tannic acid coordination for ROS scavenging in cigarette smoke, opening up an opportunity for the modification of cigarette filters by nanozymes. However, challenges for meeting demanding applications also remained because of its intrinsic selective reaction and limited antioxidant capacity.…”

Section: ■ Introductionmentioning

confidence: 99%

Alendronate-Modified Nanoceria with Multiantioxidant Enzyme-Mimetic Activity for Reactive Oxygen Species/Reactive Nitrogen Species Scavenging from Cigarette Smoke

Zhou

Zeng

Rong³

et al. 2021

ACS Appl. Mater. Interfaces

View full text Add to dashboard Cite

Highly toxic radicals including reactive oxygen species (ROS) and reactive nitrogen species (RNS) in cigarette smoke play an important role in oxidative damage of the lungs, which cannot be efficiently scavenged by current filter techniques. Herein, a novel alendronate-coated nanoceria (CeAL) nanozyme is explored for cigarette filter modification for ROS/RNS scavenging. The CeAL nanozyme with an adjustable oxidation state and high thermal stability exhibits an excellent superoxide dismutase (SOD)-like activity, hydroxyl radical elimination capacity, catalase-mimicking activity, and nitric oxide radical scavenging ability. These synergistic antioxidant abilities make the CeAL nanozyme a lucrative additive for cigarette filters. The filter incorporated with the CeAL nanozyme can efficiently scavenge ROS/RNS in the hot smoke generated by burned commercial cigarettes, resulting in reduction of oxidative stress-induced pulmonary injury and acute inflammation of mice. The developed CeAL nanozyme opens up new opportunities for cigarette filter modification to decrease the toxicity of cigarette smoke and expands the application fields of nanoceria.

show abstract

“…As a new appealing class of cutting-edge nanomaterials, noble metal aerogels (NMAs) are currently enjoying a flourish of extensive developments due to their plentiful interconnected channels, large surface area, and extremely low density. − Combining three-dimensional (3D) porous network architectures, excellent conductivity, and catalytic performance of noble metals, NMAs have caught tremendous attention in sensing, self-propulsion devices, and electrocatalysis. − The porous hybrid nanostructures can supply abundant free and open channels for fast electron transfer and mass transport, and the interconnected NWAs with anisotropic structures provide numerous active sites derived from high index facets, grain boundaries, kinetic steps, etc. Besides, self-supported properties can alleviate the support corrosion problem, which contributes to the enhancement of stability .…”

Section: Introductionmentioning

confidence: 99%

Trace Iridium as ″Adhesive″ in PtCuIr Aerogels for Robust Methanol Electrooxidation

Fang

Wang

et al. 2021

ACS Sustainable Chem. Eng.

Self Cite

View full text Add to dashboard Cite

PtCu-based alloy nanomaterials have shown great potential in methanol oxidation reaction (MOR) owing to the lower cost and good anti-poisoning ability. However, the dissolution of non-precious metal makes them suffer from severe stability issues, greatly impeding the practical application of direct methanol fuel cells. Herein, PtCuIr aerogels are successfully fabricated through a one-step NaBH 4 reduction strategy to anchor trace Ir on PtCu aerogels based on compositional engineering, which serves as advanced electrocatalysts to achieve enhanced electrocatalytic performance toward MOR. Particularly, the optimized PtCuIr aerogels show extraordinary stability and the mass activity maintains 71.2% of the initial value after 20,000 s chronoamperometric measurements. Density functional theory calculations certify that the doping of trace Ir considerably lowers the adsorption energy of CO-containing substances and thus enhances the MOR activity. By employing the vacancy formation energy of the surface Pt as the descriptor, it is revealed that the robust stability of PtCuIr aerogels originates mainly from the stronger bond between Ir and Pt/Cu atoms, where Ir acts as an ″adhesive″ to prevent the dissolution and leaching of atoms. The breakthrough of the highly stable MOR catalyst could open an avenue for affordable and durable fuel cells.

show abstract

Immobilizing Enzymes on Noble Metal Hydrogel Nanozymes with Synergistically Enhanced Peroxidase Activity for Ultrasensitive Immunoassays by Cascade Signal Amplification

Cited by 61 publications

References 51 publications

Nanozymes: Versatile Platforms for Cancer Diagnosis and Therapy

Nanozymes: Versatile Platforms for Cancer Diagnosis and Therapy

Alendronate-Modified Nanoceria with Multiantioxidant Enzyme-Mimetic Activity for Reactive Oxygen Species/Reactive Nitrogen Species Scavenging from Cigarette Smoke

Trace Iridium as ″Adhesive″ in PtCuIr Aerogels for Robust Methanol Electrooxidation

Contact Info

Product

Resources

About