Catalog |
name |
Description |
price |
R-R-3647 |
PCL silk fibroin 1% - gelatin 1% |
PCL silk fibroin 1% - gelatin 1%/PCL SF 1% - gelatin 1%/Polycaprolactone silk fibroin 1% - gelatin 1%/Polycaprolactone SF 1% - gelatin 1% from ruixi. A blend of PCL (polycaprolactone), silk fibroin (SF), and gelatin at 1% concentration can be used to create a composite material with unique properties.A blend of PCL, silk fibroin, and gelatin at 1% concentration offers a versatile platform for creating composite materials with a blend of mechanical, biodegradable, and biological properties, making it suitable for a variety of biomedical and pharmaceutical applications. |
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R-R-3648 |
Sc-polylactic acid-PLGA-CTS-electrospun nanofiber scaffold |
Sc-polylactic acid-PLGA-CTS-electrospun nanofiber scaffold/Schwann cell polylactic acid hydroxyacetic acid chitosan electrospun nanofiber scaffold from ruixi.Schwann cells polylactic acid hydroxyacetic acid chitosan electrospun nanofiber scaffolds are usually prepared through electrospinning and other techniques. During the electrospinning process, the polymer solution is sprayed into fibers, which are then stretched to a nanoscale size under the action of an electric field, forming a nanofiber scaffold. During the preparation process, the morphology, size, and structure of fibers can be controlled by adjusting parameters such as solution composition and spinning conditions. |
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R-R-3649 |
Sc-polycaprolactone-CTS electrospun nanofiber scaffold |
Schwann cell-polycaprolactone-chitosan electrospun nanofiber scaffold/Sc-polycaprolactone-CTS electrospun nanofiber scaffold from ruixi.
Schwann cells polycaprolactone chitosan electrospun nanofiber scaffolds are usually prepared through electrospinning and other techniques. During the electrospinning process, the polymer solution is sprayed into fibers, which are then stretched into nanoscale sizes under the action of an electric field, forming a nanofiber scaffold. During the preparation process, the morphology, size, and structure of the fibers can be controlled by adjusting the solution composition, spinning conditions, and other parameters. |
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R-R-3650 |
Human periodontal ligament fibroblasts grafted with polycaprolactone nanoelectrospun fiber scaffold |
Human periodontal ligament fibroblasts are connected to a nanoelectrospun fiber scaffold of caprolactone, which is usually prepared through techniques such as electrospinning. During the electrospinning process, polymer solutions are sprayed into fibers and stretched into nano-sized structures under the action of an electric field, forming nanofiber scaffolds. During the preparation process, the morphology, size, and structure of fibers can be controlled by adjusting parameters such as solution composition and spinning conditions. |
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R-R-3651 |
Human periodontal ligament fibroblasts grafted with PLA nanoelectrospun fiber scaffold |
Human periodontal ligament fibroblasts grafted with polylactic acid nanoelectrospun fiber scaffold/Human periodontal ligament fibroblasts grafted with PLA nanoelectrospun fiber scaffold from ruixi.Human periodontal ligament fibroblasts are connected to polylactic acid nano-electrospinning fiber scaffolds. Nano-fiber scaffolds are usually prepared through technologies such as electrospinning. During the electrospinning process, the polymer solution is sprayed into fibers. And under the action of electric field, it is stretched to nanoscale size to form a nanofiber scaffold. During the preparation process, the shape, size and structure of the fiber can be controlled by adjusting parameters such as solution composition and spinning conditions. |
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R-R-3652 |
PMMA electrospun nanofiber scaffold |
Polymethyl methacrylate electrospun nanofiber scaffold/PMMA electrospun nanofiber scaffold from ruixi.Polymethyl methacrylate (PMMA) electrospinning nanofiber scaffold. Nanofiber scaffold is usually prepared by electrospinning and other technologies. During the electrospinning process, the polymer solution is sprayed into fibers and stretched into nanoscale dimensions under the action of an electric field to form a nanofiber scaffold. During the preparation process, the fibers can be controlled by adjusting parameters such as solution composition and spinning conditions. shape, size and structure. |
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R-R-3653 |
Chitosan-human recombinant collagen electrospun nanofiber scaffold |
Chitosan-human recombinant collagen electrospun nanofiber scaffold. Nanofiber scaffold is usually prepared through electrospinning and other technologies. During the electrospinning process, a polymer solution is sprayed into fibers and stretched into nanoscale dimensions under the action of an electric field to form a nanofiber scaffold. During the preparation process, the shape, size and structure of the fiber can be controlled by adjusting parameters such as solution composition and spinning conditions. |
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R-R-3654 |
SF/COL-PLLA electrospun three-dimensional nanoscaffold |
SF/COL-PLLA silk fibroin-collagen-poly-L-lactic acid electrospun three-dimensional nanoscaffold;SF/COL-PLLA electrospun three-dimensional nanoscaffold;Silk fibroin-collagen-poly-L-lactic acid electrospun three-dimensional nanoscaffold from ruixi.SF/COL-PLLA electrospun three-dimensional nano scaffold is a nanoscale three-dimensional scaffold material composed of materials such as Sik Ffibroin (SF), collagen (COL), and poly-L-lactic acid (PLA). This type of scaffold material is usually prepared by electrospinning technology. During the preparation process, these materials are mixed and electrospinning technology is used under appropriate conditions to form a nanoscale three-dimensional scaffold structure. |
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R-R-3655 |
Gelatin (PCL/GE) electrospun nanofiber scaffold |
Gelatin (PCL/GE) electrospun nanofiber scaffold;Gelatin (Polycaprolactone/GE) electrospun nanofiber scaffold from ruixi. Gelatin (PCL/GE) electrospun nanofiber scaffolds are typically prepared through techniques such as electrospinning. During the electrospinning process, polymer solutions are sprayed into fibers and stretched into nano-sized structures under the action of an electric field, forming nanofiber scaffolds. During the preparation process, the morphology, size, and structure of fibers can be controlled by adjusting parameters such as solution composition and spinning conditions. |
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R-R-3656 |
Polycaprolactone electrospun nanofiber scaffold |
PCL electrospun nanofiber scaffold/Polycaprolactone electrospun nanofiber scaffold from ruixi.Polycaprolactone electrospun nanofiber scaffolds are typically prepared through techniques such as electrospinning. In the electrospinning process, polymer solutions are sprayed into fibers and stretched into nano-sized structures under the action of an electric field, forming nanofiber scaffolds. During the preparation process, the morphology, size, and structure of the fibers can be controlled by adjusting parameters such as solution composition and spinning conditions. |
price> |