Recent advances in nanozymes: from matters to bioapplications
Y Ai, ZN Hu, X Liang, H Sun, H Xin… - Advanced Functional …, 2022 - Wiley Online Library
The manufacture of bionic materials to simulate the natural counterparts has attracted
extensive attention. As one of the subcategories of biomimetic materials, the development of …
extensive attention. As one of the subcategories of biomimetic materials, the development of …
Reactivity of metal–oxo clusters towards biomolecules: from discrete polyoxometalates to metal–organic frameworks
Metal–oxo clusters hold great potential in several fields such as catalysis, materials science,
energy storage, medicine, and biotechnology. These nanoclusters of transition metals with …
energy storage, medicine, and biotechnology. These nanoclusters of transition metals with …
Nanozyme-enabled analytical chemistry
In 2007, landmark research recognized ferromagnetic nanoparticles (Fe3O4 NPs) as the
substitute of horseradish peroxidase (HRP) for their alike catalytic ability to oxidize signal …
substitute of horseradish peroxidase (HRP) for their alike catalytic ability to oxidize signal …
Nonaqueous Chemistry of Group 4 Oxo Clusters and Colloidal Metal Oxide Nanocrystals
D Van den Eynden, R Pokratath, J De Roo - Chemical Reviews, 2022 - ACS Publications
We review the nonaqueous precursor chemistry of the group 4 metals to gain insight into the
formation of their oxo clusters and colloidal oxide nanocrystals. We first describe the …
formation of their oxo clusters and colloidal oxide nanocrystals. We first describe the …
Au3+‐Functionalized UiO‐67 Metal‐Organic Framework Nanoparticles: O2•− and •OH Generating Nanozymes and Their Antibacterial Functions
The synthesis and characterization of Au3+‐modified UiO‐67 metal‐organic framework
nanoparticles, Au3+‐NMOFs, are described. The Au3+‐NMOFs reveal dual oxidase‐like …
nanoparticles, Au3+‐NMOFs, are described. The Au3+‐NMOFs reveal dual oxidase‐like …
The forgotten chemistry of group (IV) metals: A survey on the synthesis, structure, and properties of discrete Zr (IV), Hf (IV), and Ti (IV) oxo clusters
Group (IV) metal oxo clusters are a diverse class of compounds with rapidly growing
applications in catalysis, materials chemistry, electronics and optics. They possess unique …
applications in catalysis, materials chemistry, electronics and optics. They possess unique …
Metal–organic framework-engineered enzyme/nanozyme composites: Preparation, functionality, and sensing mechanisms
Y Li, H Chai, Z Yuan, C Huang, S Wang, Y Sun… - Chemical Engineering …, 2024 - Elsevier
The utility of non-homogeneous nanomaterials for the immobilization of enzymes has been
demonstrated to enhance their catalytic performance. Alongside this, the advent of artificial …
demonstrated to enhance their catalytic performance. Alongside this, the advent of artificial …
The dawn of metal-oxo clusters as artificial proteases: from discovery to the present and beyond
F Azambuja, J Moons… - Accounts of Chemical …, 2021 - ACS Publications
Conspectus The selective cleavage of peptide bonds in proteins is of paramount importance
in many areas of the biological and medical sciences, playing a key role in protein …
in many areas of the biological and medical sciences, playing a key role in protein …
En route to a heterogeneous catalytic direct peptide bond formation by Zr-based metal–organic framework catalysts
F de Azambuja, A Loosen, D Conic… - Acs …, 2021 - ACS Publications
Peptide bond formation is a challenging, environmentally and economically demanding
transformation. Catalysis is key to circumvent current bottlenecks. To date, many …
transformation. Catalysis is key to circumvent current bottlenecks. To date, many …
A zirconium metal-organic framework with SOC topological net for catalytic peptide bond hydrolysis
The discovery of nanozymes for selective fragmentation of proteins would boost the
emerging areas of modern proteomics, however, the development of efficient and reusable …
emerging areas of modern proteomics, however, the development of efficient and reusable …