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With the advancement of nanochemistry, artificial nanozymes with high catalytic stability, low manufacturing and storage cost, and greater design flexibility over natural enzymes, have emerged as a next-generation mimetic enzyme and attracted wide attention. The catalytic activity and selectivity of nanozymes can be readily controlled and optimized by the rational chemical design of nanomaterials, including regulating chemical composition, controlling morphology, altering the size, surface modification and self-assembly. Combining unique physicochemical properties and enzyme-like catalytic activities, nanozymes can provide a variety of multifunctional platforms with a wide range of applications.
Creative Enzymes, as a leading global company, is committed to helping our customers achieve effective and successful research. We provide comprehensive design and construction services for nanozymes, including the construction of 10 types of metal-based nanozymes and non-metal nanozymes. In addition, our services are carried out in the order of consultancy, experimental design, execution, testing and reporting.
Cerium (Ce)-based nanozymes possess enzyme mimetic activities with notable free radical scavenging activity, facile synthesis conditions, and excellent biocompatibility. We provide construction of cerium-based nanozymes according to customers' requirements, such as CeVO4 nanozymes, CeO2 nanozymes, Pt/CeO2 nanozymes, MOF/Ce nanozymes, etc.
Ferrum (Fe)-based nanozymes gained attention for various biological applications due to their magnetic resonance imaging performance, PODmimetic activity, and CAT mimetic properties. We help our clients construct Fe3O4 nanozymes, Fe2O3 nanozymes, FeS nanozymes, FeSe nanozymes and so on. We also recombine ferrum-based nanozymes with other nanoparticles to enhance catalytic performance.
Fig. 1 The peroxidase mimic enzyme activity of Fe3O4. (Liang M and Yan X, 2019)
Copper (Cu) based nanozymes exhibited relatively higher POD-like activities than ferrum-based nanozymes in some cases. We provide construction of copper-based nanozymes according to customers' requirements, such as CuO nanozymes, Cu2O nanozymes, CuS nanozymes, Cu(OH)2 nanozymes and so on.
Manganese (Mn)-based nanozymes have been confirmed multiple enzyme mimetic activities on account of the variable Mn valent states. We offer our clients the construction of manganese-based nanozymes, such as Mn3O4 nanozymes, MnO2 nanozymes and others.
Molybdenum (Mo), as a nontoxic and low-cost transition metal, has been employed for synthesis of various Mo-based nanozymes. We help our clients construct MoO3-x nanozymes and other Mo-based nanozymes.
Cobalt (Co)-based nanozymes have been widely used in the field of oxygen reduction catalytic reaction due to their stable properties and high catalytic activity. We offer our clients the construction of cobalt-based nanozymes, such as Co3O4 nanozymes and other Co-based nanozymes.
Platinum (Pt)-based nanozymes have been widely applied to decompose the endogenous H2O2 to O2. We provide construction of platinum-based nanozymes according to customers' requirements.
Gold (Au)-based nanozymes have proved to be effective catalysts for chemical reactions under various experimental conditions. We provide construction of gold-based nanozymes according to customers' requirements. We provide construction of gold-based nanozymes according to customers' requirements.
Iridium (Ir)-based nanozymes as metal based nanomaterials have performed CAT-like enzyme activity. We offer our clients the construction of iridium-based nanozymes, such as IrO2 nanozymes, IrOx and other Ir-based nanozymes.
Ruthenium (Ru)-based nanozymes with catalase-like activity could be constructed for highly efficient catalyst. We provide construction of gold-based nanozymes according to customers' requirements.
Non-metallic nanozymes such as carbon-based nanomaterials show great promise enzyme-mimicking capability owing to their intrinsic catalytic properties. Currently, they also have been extensively reported to possess intrinsic peroxidase-, oxidase-, catalase-, superoxide dismutase-, or hydrolase-like activity. We provide construction of carbon-based nanozymes, for example, carbon nano tubes, graphene oxide, carbon nitride, carbon nanodots, fullerene, and some other forms of carbon nanozymes.
Creative Enzymes is always devoted us to provide high-quality and satisfactory service to our customers, if you are interested in our services or have some question, please feel free to contact us or make online inquiry.
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