Description: DescriptionPVDFChemical Compatibility: pH 1-8.Modified Hydrophilic. Low protein binding. Low extractables.The modified hydrophilic PVDF is widely used in sterilization filtration in biopharmaceuticals due to its low protein binding and low extractables.Pore size 0.22um/0.45umDiameter:47mm PTFEChemical Compatibility: pH 1-14, compatible with a variety of solvents.Modified Hydrophilic. Very low extractables.Application: Compatible with most HPLC solutions, filtration of aqueous and organic solutions. For Hydrophilic PTFE membrane, methanol pre-wet is not required when filtering aqueous solutions.Pore size 0.22um/0.45umDiameter:47mm PESChemical Compatibility: pH 3-14, compatible with a variety of solvents.Naturally Hydrophilic. Asymmetric structure. High flow rate. Low protein binding Application: Can withstand high temperature sterilization at 121-134?. Choice for many clinical applications.Pore size 0.22um/0.45umDiameter:47mm" allowwhitespace="true" highlightstring="" style="box-sizing: inherit; --min-resolution:320; --min-font-size:var(--mobile-base-font-size); --min-font-size-scale:var(--mobile-font-size-scale); --min-fs--2:calc(var(--min-fs--1)/var(--min-font-size-scale)); --min-fs--1:calc(var(--min-fs-0)/var(--min-font-size-scale)); --min-fs-0:var(--min-font-size); --min-fs-1:calc(var(--min-fs-0)*var(--min-font-size-scale)); --min-fs-2:calc(var(--min-fs-1)*var(--min-font-size-scale)); --min-fs-3:calc(var(--min-fs-2)*var(--min-font-size-scale)); --min-fs-4:calc(var(--min-fs-3)*var(--min-font-size-scale)); --min-fs-5:calc(var(--min-fs-4)*var(--min-font-size-scale)); --min-fs-6:calc(var(--min-fs-5)*var(--min-font-size-scale)); --min-fs-7:calc(var(--min-fs-6)*var(--min-font-size-scale)); --max-resolution:1280; --max-font-size:var(--min-font-size); --max-font-size-scale:calc(var(--min-font-size-scale) + 0.11); --max-fs--2:calc(var(--max-fs--1)/var(--max-font-size-scale)); --max-fs--1:calc(var(--max-fs-0)/var(--max-font-size-scale)); --max-fs-0:var(--max-font-size); --max-fs-1:calc(var(--max-fs-0)*var(--max-font-size-scale)); --max-fs-2:calc(var(--max-fs-1)*var(--max-font-size-scale)); --max-fs-3:calc(var(--max-fs-2)*var(--max-font-size-scale)); --max-fs-4:calc(var(--max-fs-3)*var(--max-font-size-scale)); --max-fs-5:calc(var(--max-fs-4)*var(--max-font-size-scale)); --max-fs-6:calc(var(--max-fs-5)*var(--max-font-size-scale)); --max-fs-7:calc(var(--max-fs-6)*var(--max-font-size-scale)); --resolution-range:calc(var(--max-resolution) - var(--min-resolution)); --resolution:1200px; --resolution-progress:calc(var(--resolution) - var(--min-resolution)*1px); --interpolate-by:calc(var(--resolution-progress)/var(--resolution-range)); --range-fs--2:calc(var(--max-fs--2) - var(--min-fs--2)); --range-fs--1:calc(var(--max-fs--1) - var(--min-fs--1)); --range-fs-0:calc(var(--max-fs-0) - var(--min-fs-0)); --range-fs-1:calc(var(--max-fs-1) - var(--min-fs-1)); --range-fs-2:calc(var(--max-fs-2) - var(--min-fs-2)); --range-fs-3:calc(var(--max-fs-3) - var(--min-fs-3)); --range-fs-4:calc(var(--max-fs-4) - var(--min-fs-4)); --range-fs-5:calc(var(--max-fs-5) - var(--min-fs-5)); --range-fs-6:calc(var(--max-fs-6) - var(--min-fs-6)); --range-fs-7:calc(var(--max-fs-7) - var(--min-fs-7)); --fs--2:max(12px,calc(var(--min-fs--2)*1px + var(--range-fs--2)*var(--interpolate-by))); --fs--1:max(14px,calc(var(--min-fs--1)*1px + var(--range-fs--1)*var(--interpolate-by))); --fs-0:calc(var(--min-fs-0)*1px + var(--range-fs-0)*var(--interpolate-by)); --fs-1:calc(var(--min-fs-1)*1px + var(--range-fs-1)*var(--interpolate-by)); --fs-2:calc(var(--min-fs-2)*1px + var(--range-fs-2)*var(--interpolate-by)); --fs-3:calc(var(--min-fs-3)*1px + var(--range-fs-3)*var(--interpolate-by)); --fs-4:calc(var(--min-fs-4)*1px + var(--range-fs-4)*var(--interpolate-by)); --fs-5:calc(var(--min-fs-5)*1px + var(--range-fs-5)*var(--interpolate-by)); --fs-6:calc(var(--min-fs-6)*1px + var(--range-fs-6)*var(--interpolate-by)); --fs-7:calc(var(--min-fs-7)*1px + var(--range-fs-7)*var(--interpolate-by)); --line-height:1.5; --line-height-scale:0.95; --lh--2:calc(var(--lh--1)/var(--line-height-scale)); --lh--1:calc(var(--lh-0)/var(--line-height-scale)); --lh-0:var(--line-height); --lh-1:calc(var(--lh-0)*var(--line-height-scale)); --lh-2:calc(var(--lh-1)*var(--line-height-scale)); --lh-3:calc(var(--lh-2)*var(--line-height-scale)); --lh-4:calc(var(--lh-3)*var(--line-height-scale)); --lh-5:calc(var(--lh-4)*var(--line-height-scale)); --lh-6:calc(var(--lh-5)*var(--line-height-scale)); --lh-7:calc(var(--lh-6)*var(--line-height-scale)); margin: 0px; overflow-wrap: anywhere; word-break: break-word; font-size: var(--fs--1); line-height: var(--lh--1); --mobile-base-font-size:14; --mobile-font-size-scale:1.13;">PVDFChemical Compatibility: pH 1-8.Modified Hydrophilic. Low protein binding. Low extractables.The modified hydrophilic PVDF is widely used in sterilization filtration in biopharmaceuticals due to its low protein binding and low extractables.Pore size 0.22um/0.45umDiameter:47mmPTFEChemical Compatibility: pH 1-14, compatible with a variety of solvents.Modified Hydrophilic. Very low extractables.Application: Compatible with most HPLC solutions, filtration of aqueous and organic solutions. For Hydrophilic PTFE membrane, methanol pre-wet is not required when filtering aqueous solutions.Pore size 0.22um/0.45umDiameter:47mmPESChemical Compatibility: pH 3-14, compatible with a variety of solvents.Naturally Hydrophilic. Asymmetric structure. High flow rate. Low protein binding Application: Can withstand high temperature sterilization at 121-134?. Choice for many clinical applications.Pore size 0.22um/0.45umDiameter:47mm
Price: 60 USD
Location: San Diego, California
End Time: 2024-10-14T23:03:29.000Z
Shipping Cost: 3.99 USD
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Item Specifics
All returns accepted: ReturnsNotAccepted
Brand: Hygia Reagent
Expiration Date: 24 months from date of manufacture
Country/Region of Manufacture: United States
Intended Use/Discipline: Biological Laboratory
