Magnetic Field-Assisted Incubator Series
Synergistic effects of static magnetic field or alternating magnetic field with temperature, light,carbon dioxide, and humidity parameter on microorganism, fungi, cell, tissue,larvae, fish, seed, plant culture, and material properties can be investigated,especially for ion channel,
protein modification, insect metabolism and its physiological index, polymer binding, algae and toxin adsorption, fungal activity, Spirulina growth, bio-electromagnetic repair, tissue and cell culture, magnetic
nanoparticles assisted fermentation, magnetic particles regulated gene expression, fruit maturity, free radical content in seeds, cellular and microbial morphology, extracellular electron transfer, cell differentiation, antioxidant activity, in-vitro neuron cell, protein crystal growth, freezing and storage of materials, etc.
Magnetic Field-Assisted Incubator Shaker Series
Synergistic effects of static magnetic field or alternating magnetic field with temperature, light, and carbon dioxide
on microorganisms, fungi, cell, tissue, platelet storage,
matter dissolution, leachate extraction, and soil sample
extraction, under shaking condition, can be investigated.
Non-thermal effects of static magnetic field or alternating
magnetic field are used to assist bio or chemical reactions.
Applications include magnetic nanoparticle-assisted reaction,
synthesis of micro-, nano-structures, free radical reactions,
regulation of catalytic active sites, substrate adsorption,magnetic
cross-linking enzyme aggregation, ionic liquid catalysis, magnetic nanoparticles modified enzymes, activated sludge, ion
electrodeposition, bacterial degradation of compounds, formation of bonds between proteins and amino acids, enzymatic reactions, especially those containing NiFe2O4, BiFeO3/CoPt, ZnO, Co, Fe,
Mn, Zn, etc.
Magnetoelectric Polymer Materials Testing System
The effects of magnetic field and orthogonal electric field on
material deposition, macromolecules and particles driving, nano
coating, tissues and cells, gel properties, selective aggregation and
self-assembly of materials can be investigated, especially for magnetic
proteins, conjugated polymers, and iron-based nanomaterials.
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Life Science
Material Science
Civil Environment
Food
Magnetic Field-Assisted Incubator
Magnetic Field-Assisted Incubator Shaker
Magnetoelectric Polymer Materials Testing System
Focus on magneto-induced bio-chemical technology