Catalog |
name |
Description |
price |
R-R-3667 |
Natural polymer electrospun nanofibers containing chocolate |
Natural polymer containing chocolate electrospun nanofibers, electrospinning is a method of preparing nanofibers that uses electrostatic force to stretch polymer solutions or melts into fibers. This method typically involves spraying polymer solutions or melts onto the receiver under high voltage to form fibers. Electrospinning technology can be used to prepare fibers with diameters ranging from a few nanometers to micrometers. |
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R-R-3668 |
Natural polymer electrospun nanofibers containing milk |
Natural polymer containing milk electrospun nanofibers, electrospinning is a method of preparing nanofibers that uses electrostatic force to stretch polymer solutions or melts into fibers. This method typically involves spraying polymer solutions or melts onto a receiver under high voltage to form fibers. Electrospinning technology can be used to prepare fibers with diameters ranging from a few nanometers to micrometers. |
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R-R-3669 |
Magnetic ferroferric oxide PCL electrospun fiber membrane |
Magnetic ferroferric oxide polycaprolactone electrospun fiber membrane/Magnetic Fe3O4 polycaprolactone electrospun fiber membrane/Magnetic Fe3O4 PCL electrospun fiber membrane/Magnetic ferroferric oxide PCL electrospun fiber membrane from ruixi.Magnetic ferroferric oxide polycaprolactone (PCL) electrospinning fiber membrane. Electrospinning is a commonly used nanofiber preparation technology by ejecting polymer solution or melt from a tip or nozzle under a high electric field. It is stretched into fibers under the action of an electric field and then collected on a substrate to form a fiber membrane. The fibers prepared by this method usually have nanometer-scale diameters and are therefore called nanofibers. |
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R-R-3670 |
Magnetic ferroferric oxide PAN electrospun fiber membrane |
Magnetic ferroferric oxide polyacrylonitrile electrospun fiber membrane/Magnetic ferroferric oxide PAN electrospun fiber membrane/Magnetic Fe3O4 polyacrylonitrile electrospun fiber membrane/Magnetic Fe3O4 PAN electrospun fiber membrane from ruixi.Magnetic ferroferric oxide polyacrylonitrile (PAN) electrospun fiber membrane. Electrospinning is a commonly used nanofiber preparation technology by ejecting a polymer solution or melt from a tip or nozzle under a high electric field, and The process of stretching into fibers under the action of an electric field and then collecting them on a substrate to form a fiber membrane. The fibers prepared by this method usually have nanometer-scale diameters and are therefore called nanofibers. |
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R-R-3671 |
Ti02 nano electrospun fiber membrane |
Titanium dioxide (Ti02) nano electrospun fiber membrane/Titanium dioxide nano electrospun fiber membrane/Ti02 nano electrospun fiber membrane from ruixi.Titanium dioxide (Ti02) nanoelectrospinning fiber membrane is a commonly used nanofiber preparation technology, which involves spraying polymer solutions or melts from the tip or nozzle under high electric fields, stretching them into fibers under the action of electric fields, and then collecting them on the substrate to form a fiber membrane. The fibers prepared by this method usually have a diameter at the nanoscale, hence they are called nanofibers. |
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R-R-3672 |
OMMT electrospun membrane |
Montmorillonite (OMMT) electrospun membrane/Montmorillonite electrospun membrane/OMMT electrospun membrane from ruixi.Montmorillonite (OMMT) electrospinning film is a commonly used nanofiber preparation technique, which involves spraying polymer solutions or melts from the tip or nozzle under a high electric field, stretching them into fibers under the action of an electric field, and then collecting them on a substrate to form a fiber film. The fibers prepared by this method usually have a diameter at the nanoscale, hence they are called nanofibers. |
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R-R-3673 |
PMMA electrospun membrane |
Polymethyl methacrylate (PMMA) electrospun membrane/Polymethyl methacrylate electrospun membrane/PMMA electrospun membrane from ruixi.Polymethylmethacrylate (PMMA) electrospun membrane, electrospun is a commonly used nanofiber preparation technology, by ejecting a polymer solution or melt from a tip or nozzle under a high electric field, and under the action of the electric field The process of stretching down into warp fibers and then collecting them on the substrate to form a fiber membrane. The fibers prepared by this method usually have nanometer-scale diameters and are therefore called nanofibers. |
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R-R-3674 |
PVA electrospun fiber membrane |
PVA electrospun fiber membrane/Polyvinyl alcohol electrospun fiber membrane from ruixi.PVA electrospun fiber membrane, electrospinning is a commonly used nanofiber preparation technology, by ejecting a polymer solution or melt from a tip or nozzle under a high electric field, and under the action of the electric field The process of stretching into fibers and then collecting them on a substrate to form a fiber membrane. The fibers prepared by this method usually have nanometer-scale diameters and are therefore called nanofibers. |
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R-R-3675 |
ZrO2 electrospun membrane |
ZrO2 electrospun membrane/zirconium dioxide electrospun membrane from ruixi.ZrO2 zirconium dioxide electrospun membrane, electrospun is a commonly used nanofiber preparation technology, by ejecting the polymer solution or melt from a tip or nozzle under a high electric field, and in the electric field The process of stretching into fibers under action and then collecting them on a substrate to form a fiber membrane. The fibers prepared by this method usually have nanometer-scale diameters and are therefore called nanofibers. |
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R-R-3676 |
ZIF68 and PAN electrospinning materials |
ZIF68 and polyacrylonitrile electrospinning materials/ZIF68 and PAN electrospinning materials from ruixi.ZIF68 and polyacrylonitrile electrospinning materials, electrospinning is a commonly used nanofiber preparation technology, which involves spraying polymer solutions or melts from the tip or nozzle under a high electric field, stretching them into fibers under the action of the electric field, and then collecting them on the substrate to form a fiber film. The fibers prepared by this method usually have a diameter at the nanoscale, so they are called nanofibers. |
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