Catalog |
name |
Description |
price |
R-R-3707 |
Porous polyvinylidene fluoride nanofiber film |
Porous PVDF nanofiber film/Porous polyvinylidene fluoride nanofiber film from ruixi. Porous polyvinylidene fluoride (PVDF) nanofiber film is a specialized material created through the process of electrospinning using polyvinylidene fluoride, a thermoplastic fluoropolymer known for its excellent chemical resistance, mechanical properties, and low permeability to gases. During the electrospinning process, a high voltage is applied to draw charged threads from a PVDF polymer solution, resulting in the formation of ultra-fine nanofibers that are then collected to produce a film.Porous PVDF nanofiber films find applications in various industries, including membrane technology for filtration, water purification, tissue engineering scaffolds, and in the development of sensors and energy storage devices. Their unique structure makes them suitable for applications that require high surface area, precise pore size control, and excellent chemical resistance, particularly in fields that demand advanced filtration, separation, or biomedical and environmental functionalities. |
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R-R-3708 |
Porous PVP nanofiber film |
Porous Polyvinyl pyrrolidone nanofiber film/Porous PVP nanofiber film from ruixi.Porous polyvinylpyrrolidone (PVP) nanofiber film is a specialized material produced through the electrospinning process using polyvinylpyrrolidone, a water-soluble polymer known for its biocompatibility and non-toxic nature.Porous PVP nanofiber films find use in various applications such as wound dressings, tissue engineering scaffolds, drug delivery systems, and filtration membranes. Their biocompatibility and tunable porosity make them suitable for biomedical purposes where controlled release, cell interaction, and biocompatibility are essential. Additionally, their high surface area and fine network structure render them useful in applications that require efficient filtration and controlled substance delivery. |
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R-R-3709 |
Mesoporous PVP electrospun fiber membrane |
Mesoporous PVP electrospun fiber membrane/Mesoporous Polyvinyl pyrrolidone electrospun fiber membrane from ruixi. Mesoporous polyvinylpyrrolidone (PVP) electrospun fiber membranes are a type of nanofibrous material with a network of interconnected pores on a nanometer scale. These membranes are fabricated through electrospinning, a process that involves the use of high voltage to create nanofibers from a polymer solution or melt. PVP, a water-soluble synthetic polymer, is often used due to its biocompatibility and non-toxic nature.In biomedical applications, these membranes have shown promise for drug delivery systems, wound dressing materials, and tissue engineering scaffolds due to their biocompatibility and the ability to support cell adhesion and growth. |
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R-R-3710 |
Porous PEO nanofiber film |
Porous polyethylene oxide nanofiber film/Porous PEO nanofiber film from ruixi. Porous polyethylene oxide (PEO) nanofiber films are ultrafine fibrous materials with a porous structure that are generated through processes such as electrospinning.The porous nature of the PEO nanofiber film allows for high porosity, which is beneficial in applications requiring efficient gas or liquid permeation and exchange. Moreover, the porous structure facilitates cell adhesion and proliferation, making it suitable for tissue engineering applications as a scaffold for tissue regeneration.Porous PEO nanofiber films represent a versatile material with a wide range of potential applications owing to their unique structural and chemical properties. These properties make them promising candidates for various biomedical, environmental, and industrial applications. |
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R-R-3711 |
Mesoporous PEO electrospun fiber film |
Mesoporous PEO electrospun fiber film/Mesoporous polyethylene oxide electrospun fiber film from ruixi. Mesoporous polyethylene oxide (PEO) electrospun fiber films are a specialized type of nanofibrous material with a network of interconnected pores on a nanoscale level. The production of these films typically involves the electrospinning process, which uses a high voltage to create nanofibers from a polymer solution.Features of mesoporous PEO electrospun fiber films include high porosity, a large specific surface area, and an interconnected pore network. These attributes are advantageous for various applications, particularly in fields such as biomedical engineering, environmental remediation, and industrial filtration.These films have demonstrated potential in biomedical applications for drug delivery systems, wound dressings, and tissue engineering scaffolds due to their biocompatibility and ability to support cell adhesion and growth. Additionally, their high surface area and interconnected porosity make them suitable for the adsorption and filtration of contaminants in water treatment and air filtration systems. |
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R-R-3712 |
Mesoporous Gel electrospun fiber membrane |
Mesoporous Silica gel electrospun fiber membrane/Mesoporous Gel electrospun fiber membrane from ruixi. Mesoporous gel electrospun fiber membranes are nanofibrous materials with a network of interconnected pores, and they are produced using the electrospinning technique.Mesoporous gel electrospun fiber membranes represent a versatile and promising material with a wide range of potential applications due to their unique structural and chemical properties. Their characteristics make them well-suited for use in various fields, including biomedical, environmental, and industrial applications. |
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R-R-3713 |
Red fluorescent PU elastomer polymer electrospinning membrane |
Red fluorescent PU elastomer polymer electrospinning membrane/Red fluorescent polyurethane elastomer polymer electrospinning membrane from ruixi.Red fluorescent PU elastomer polymer electrospinning 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, so they are called nanofibers. |
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R-R-3714 |
Red fluorescent poly(p-phenylene terephthalamide) liquid crystal polymer electrospinning membrane |
Red fluorescent poly(p-phenylene terephthalamide) liquid crystal polymer electrospinning 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, so they are called nanofibers. |
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R-R-3715 |
Poly(p-phenylene terephthalamide) liquid crystal polymer electrospun membrane drug loading customiza |
Poly(p-phenylene terephthalamide) liquid crystal polymer electrospun membrane drug loading customization,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, so they are called nanofibers. |
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R-R-3716 |
Green fluorescent poly(p-phenylene terephthalamide) liquid crystal polymer electrospinning membrane |
Green fluorescent poly(p-phenylene terephthalamide) liquid crystal polymer electrospinning 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, so they are called nanofibers. |
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