Single-atom nanozyme based on Mn-center with enhanced peroxidase-like activity for organic dye degradation
Q Feng, G Wang, L Xue, Y Wang, M Liu… - ACS Applied Nano …, 2023 - ACS Publications
Compared with natural enzymes, nanozymes have advantages such as high stability, low
cost, and a broad application prospect. However, due to the low catalytic activity of …
cost, and a broad application prospect. However, due to the low catalytic activity of …
Hydrogen peroxide-assisted and histidine-stabilized copper-containing nanozyme for efficient degradation of various organic dyes
S Wang, X Wang, B Du, Y Jin, W Ai, G Zhang… - … Acta Part A: Molecular …, 2023 - Elsevier
Nanozymes have potential applications in many fields, and a novel copper-containing
nanozyme with highly dispersity and uniformity was self-assembled for efficient degradation …
nanozyme with highly dispersity and uniformity was self-assembled for efficient degradation …
Peroxidase‐Mimicking Nanozyme with Enhanced Activity and High Stability Based on Metal–Support Interactions
Peroxidase‐mimicking nanozymes offer unique advantages in terms of high stability and low
cost over natural peroxidase for applications in bioanalysis, biomedicine, and the treatment …
cost over natural peroxidase for applications in bioanalysis, biomedicine, and the treatment …
Cascade reaction system integrating single-atom nanozymes with abundant Cu sites for enhanced biosensing
Single-atom nanozymes (SAzymes), as novel nanozymes with atomically dispersed active
sites, are of great importance in the development of nanozymes for their high catalytic …
sites, are of great importance in the development of nanozymes for their high catalytic …
Atomically dispersed hierarchically ordered porous Fe-NC single-atom nanozymes for dyes degradation
S Wu, W Wu, X Zhu, M Li, J Zhao, S Dong - Nano Research, 2023 - Springer
The development of novel nanozymes for environmental contamination remediation is a
worthwhile research direction. However, most of the reported nanozymes cannot degrade …
worthwhile research direction. However, most of the reported nanozymes cannot degrade …
Ultrasensitive stimulation effect of fluoride ions on a novel nanozyme–SERS system
S Wen, Z Zhang, Y Zhang, H Liu, X Ma… - ACS Sustainable …, 2020 - ACS Publications
Recently, nanomaterial-based enzyme mimics (nanozymes) have captured extensive
interest owing to their high stability and low cost compared with natural enzymes. The …
interest owing to their high stability and low cost compared with natural enzymes. The …
Highly active single-atom nanozymes with high-loading iridium for sensitive detection of pesticides
Y Wang, L Yin, G Qu, CH Leung, L Han… - Analytical …, 2023 - ACS Publications
Single-atom nanozymes (SAzymes) are novel mimic-enzyme materials with atomically
doped active sites. They play a pivotal role in the field of nanozymes because of their …
doped active sites. They play a pivotal role in the field of nanozymes because of their …
Adenine phosphate-Cu nanozyme with multienzyme mimicking activity for efficient degrading phenolic compounds and detection of hydrogen peroxide, epinephrine …
TQ Chai, GY Chen, LX Chen, JL Wang, CY Zhang… - Analytica Chimica …, 2023 - Elsevier
Background With the development of nanotechnology, various nanomaterials with enzyme-
like activity (nanozymes) have been reported. Due to their superior properties, nanozymes …
like activity (nanozymes) have been reported. Due to their superior properties, nanozymes …
Dual-active-site Fe/Cu single-atom nanozymes with multifunctional specific peroxidase-like properties for S2− detection and dye degradation
X Chen, Y Wang, M Feng, D Deng, X Xie, C Deng… - Chinese Chemical …, 2023 - Elsevier
Designing single-atom nanozymes with densely exposed metal atom active sites and
enhancing catalytic activity to detect pollutants remain a serious challenge. Herein, we …
enhancing catalytic activity to detect pollutants remain a serious challenge. Herein, we …
Atomically site synergistic effects of dual-atom nanozyme enhances peroxidase-like properties
R Zeng, Y Li, X Hu, W Wang, Y Li, H Gong, J Xu… - Nano Letters, 2023 - ACS Publications
Pursuing effective and generalized strategies for modulating the electronic structures of
atomically dispersed nanozymes with remarkable catalytic performance is exceptionally …
atomically dispersed nanozymes with remarkable catalytic performance is exceptionally …