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Nanozyme‐based luminescence detection
Luminescence, 2020AbstractNanozymes refer to nanomaterial‐based enzyme mimics. Most nanozyme assays use chromogenic molecules as substrates that can produce an absorbance change in the visible region upon reaction. For certain applications, such as imaging, fluorescence and luminescence signals are required.
Jinyi Zhang, Juewen Liu
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Catalytic Nanozyme for Radiation Protection
Bioconjugate Chemistry, 2021Radiotherapy has been widely used in clinical cancer treatment. However, the ionizing radiation required to kill the tumor will inevitably cause damage to the surrounding normal tissues. To minimize the radiation damage and side effects, small molecular radioprotective agents have been used as clinical adjuvants for radiation protection of healthy ...
Ruiying Zhao +4 more
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Defect‐Engineered Nanozyme‐Linked Receptors
Small, 2021AbstractThough nanozymes are successfully applied in various areas, the increasing demands facilitate the exploitation of nanozymes possessing higher activity and more functions. Natural enzyme‐linked receptors (ELRs) are critical components for signal transductions in vivo by expressing activity variations after binding with ligands. Inspired by this,
Yu Wu +13 more
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Nanozymes: Functional Nanoparticle‐Based Catalysts
ChemInform, 2005AbstractFor Abstract see ChemInform Abstract in Full Text.
PASQUATO, LUCIA +2 more
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Catalytic antimicrobial therapy using nanozymes
WIREs Nanomedicine and Nanobiotechnology, 2021AbstractNanozymes are nanomaterials with enzyme‐like characteristics, which catalyze the conversion of enzyme substrates and follow enzymatic kinetics under physiological conditions. As a new generation of artificial enzymes, nanozymes provide alternative approaches for those upon enzymatic catalysis.
Qian Wang, Jing Jiang, Lizeng Gao
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Nanozyme-Based Enhanced Cancer Immunotherapy
Tissue Engineering and Regenerative Medicine, 2022Catalytic nanoparticles with natural enzyme-mimicking properties, known as nanozymes, have emerged as excellent candidate materials for cancer immunotherapy. Owing to their enzymatic activities, artificial nanozymes not only serve as responsive carriers to load drugs and therapeutic molecules for cancer treatment, but also act as enzymes for modulating
Ngoc Man Phan +2 more
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2020
Free radicals (ROS, NOS, etc.) play a vital role in the pathological process of many diseases from nerve and organ injury to cancer, tissue damage, and inflammatory disorders. Though moderate amount of free radicals helps maintain the normal body function and hamper the growth of bacteria, excessive amount of radicals will induce oxidative stress ...
Wen Cao +3 more
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Free radicals (ROS, NOS, etc.) play a vital role in the pathological process of many diseases from nerve and organ injury to cancer, tissue damage, and inflammatory disorders. Though moderate amount of free radicals helps maintain the normal body function and hamper the growth of bacteria, excessive amount of radicals will induce oxidative stress ...
Wen Cao +3 more
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Nanozymes in electrochemical affinity biosensing
Microchimica Acta, 2020Over the past decade, artificial nanomaterials that exhibit properties similar to those of enzymes are gaining attraction in electrochemical biosensing as highly stable and low-cost alternatives to enzymes. This review article discusses the main features of the various nanomaterials (metal oxide, metal, and carbon-based materials) explored so far to ...
Susana Campuzano +3 more
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Recent Advances in Nanozyme Research
Advanced Materials, 2018AbstractAs a new generation of artificial enzymes, nanozymes have the advantages of high catalytic activity, good stability, low cost, and other unique properties of nanomaterials. Due to their wide range of potential applications, they have become an emerging field bridging nanotechnology and biology, attracting researchers in various fields to design
Hui Wang, Kaiwei Wan, Xinghua Shi
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