The IT4IP nuclear pore membrane, with its unique track etching technology, creates a unique track etching filter membrane. Among the many materials, polyimide filter membrane (PI) is the exclusive secret of IT4IP, especially for the production of separators for lithium batteries.
The pore size and thickness of the IT4IP nuclear pore membrane have a wide range of options, from 001 micron to 30 micron, ranging from 6-50um. What's even more impressive is that it has a porosity of up to 50%, which is an impressive figure. The various pore arrangements, including perpendicular parallel pores and multi-angle pores, seem to tell the diversity and flexibility of the IT4IP nuclear pore membrane.
The surface treatment and color options are equally rich, whether hydrophilic, lipophilic or cell culture treatment, whether white translucent, transparent, black or gray, the IT4IP nuclear pore membrane can provide you with the right choice. The product specifications are diverse, whether it is reels, discs, sheets or A4 specifications, we can meet your needs.
The specifications of the IT4IP nuclear pore membrane are dizzying, including iPpore, iPblack, iPcellculTrue, etc. ippore is used for routine filtration of liquids, gases, and microorganisms in a wide range of applications, including air monitoring, water quality analysis, microbial collection, blood filtration, asbestos fiber testing, etc. iBlack's staining process transforms a white nuclear pore membrane into a black nuclear pore membrane, and its low fluorescence background allows it to shine in the detection of fluorescent labels. IpcellCulTrue is TC treated to promote cell growth, differentiation and adhesion, and is highly transparent in color, making it suitable as a substrate or support for cell culture.
The IT4IP nuclear pore membrane not only has an accurate filter pore size, but can also be used as a template for the synthesis of nano- and micro-substances. Whether it is nanotubes or nanowires, a suitable template can be found on the IT4IP nuclear pore membrane. Three-dimensional nanowires or nanotube arrays can be grown with adjustable size and spatial arrangement by using IT4IP nuclear pore membranes (orbital etched membranes) as templates for nanowire or nanotube growth. This template can be used in a wide range of applications and can be used for polymer nanowire nanotubes, metal-polymer nanowires, and metal nanowire nanotubes.