Best Lab Filter Membranes

of Dec 2024

Foxx Life Sciences 365

Foxx Life Sciences 365-3212-OEM EZFlow Membrane Disc Filter is a high-performance filter designed for filtration of aggressive chemicals and solutions. The filter has a 25mm diameter and a 0.45µm por...

Syringe Filter PES Hydrophilic Filtration Sterile Lab Filters 0.2μm Pore Size, 33mm Membrane Diameter...

COBETTER PES Sterile Syringe Filter is a high quality product designed for laboratory filtration of protein solutions, cell culture media, and buffers. It features a hydrophilic membrane, resistant to...

ZHANXUBIO Membrane Filter Sticker 20mm 58mm 65mm 82mm 90mm 0.3um Strong Adhersive Filter Disc for Mushroom...

The ZHANXUBIO Membrane Filter Sticker is a great solution for mushroom cultivation. The filter sticker is made of a 0.3um PTFE membrane with a strong adhesive backing, making it suitable for autoclave...

db11 FunChem Qualitative Filter Paper Circles, 56 mm Diameter Cellulose Lab Filter Paper, 20 Micron Particle...

The DB11 FunChem Qualitative Filter Paper Circles are the perfect choice for your lab experiments. With a 56 mm diameter, these cellulose lab filter papers allow for efficient filtration of particles ...

COBETTER PTFE Membrane Filters Lab Disc Hydrophobic Filter, 47mm Diameter, 0.45µm Pore Size, 100 Pi...

COBETTER PTFE Membrane Filters Lab Disc Hydrophobic Filter is a high-quality filter designed to meet the needs of laboratory and industrial applications. This 47mm diameter filter has a 0.45µm pore s...

COBETTER 500ml Bottle Top Vacuum Filter 0.22μm Sterile PES Membrane, Graduated, Bottle Top Only, Pack...

The COBETTER 500ml Bottle Top Vacuum Filter 0.22μm Sterile PES Membrane, Graduated, Bottle Top Only, Pack of 18 is the perfect solution for sterile filtration of cell culture, media, buffers, and rea...

64Pcs 20mm Diameter Synthetic Filter disc Hydrophobic PTFE Membrane 0.3um Pore Size Strong Adhesive for...

This 64Pcs 20mm Diameter Synthetic Filter disc Hydrophobic PTFE Membrane 0.3um Pore Size Strong Adhesive for Mushroom Cultivation is perfect for all mushroom growers looking to provide a sterile growi...

Omicron 170047X Nylon Membrane Filters, 0.45 μm, 47 mm (Pack of 100)

The Omicron 170047X Nylon Membrane Filters are an ideal solution for filtration of liquids and gases. This pack of 100 filters feature a 0.45 μm pore size and a 47 mm diameter, making them perfect fo...

EMD Millipore Isopore TETP04700 Polycarbonate Filter Membrane, Hydrophilic, 8µm Pore Size, 47mm Filter...

The EMD Millipore Isopore TETP04700 Polycarbonate Filter Membrane is a high-quality filter membrane designed for use in airborne contaminant and particle analysis. This hydrophilic membrane has an 8µ...

Applied Membranes Silt Density Index Test Kit, SDI Tester in Portable Carrying Case for Onsite Water...

The Applied Membranes Silt Density Index Test Kit is the perfect solution for on-site water testing. This portable carrying case contains everything you need to measure silt density, including a filte...

Simsii Syringe Filter, Nylon Filtration Medium, Non Sterile Membrane Lab Disc, Diameter 13 mm, Pore Size...

6. Diameter: 13 mm 7. Pore size: 0.22 um 8. Non-sterile 9. Pack of 100 The Simsii Syringe Filter is an ideal choice for general laboratory filtration. It is used to remove particles from water, ...

Syringe Filter Hydrophobic PTFE Membrane 33mm Diameter 0.22um Pore Size Gas Exchange Non Sterile by Bioemd...

9.2
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⋅ HYDROPHOBIC PTFE SYRINGE FILTERS:Medical grade PP housing with Hydrophobic PTFE membrane. Diameter: 33mm, Pore Size: 0.22μm.
⋅ HYDROPHOBIC PTFE MAIN ADVANTAGE: Hydrophobic PTFE memb...

Omicron 170047R Nylon Membrane Filters, 0.2 μm, 47 mm (Pack of 100)

5. Pack of 100 The Omicron 170047R Nylon Membrane Filters are a great choice for capturing particles in a variety of applications. These filters feature a 0.2 μm pore size, making them perfect for...

AMTAST PTFE Membrane Disc Filter, Hydrophobic, 47mm Diameter, 0.45µm Pore Size (Pack of 50)

6. Low protein binding and high flow rates. 7. Bubble point @23°C: 60%IPA: 0.22μm: ≥1000mbar(10.2psi); 0.45μm: ≥600mbar (5.8psi). 8. Water Flow rate: 0.22μm: ≥6mL/min/ cm2@1bar (14.5 psi);...

SimPure MCE Gridded Membrane Filter Sterile, 47mm Diameter and 0.45um Pore Size, Individual Pack Membrane...

8.6
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SimPure MCE Gridded Membrane Filter Sterile, 47mm Diameter and 0.45um Pore Size, Individual Pack Membrane Disc Filter, Hydrophilic is an ideal filter for sterile filtration, colony counting, and steri...

Eisco Labs Premium Qualitative Filter Paper, 9cm Dia., Medium Speed (85 gsm), 10μm (10 micron) Pore Size

8.4
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Eisco Labs Premium Qualitative Filter Paper, 9cm Dia., Medium Speed (85 gsm), 10μm (10 micron) Pore Size - Pack of 100 is an essential product for laboratories. This pack of 100 qualitative filter pa...

Foxx Life Sciences

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Foxx Life Sciences' Autofil sterile disposable vacuum filter units offer a reliable and efficient way to sterilize or clarify aqueous laboratory fluids. The patented next generation product comes with...

100 Pack Syringe Filters PTFE, Syringe Lab Filters 13mm Membrane Diameter, 0.22um Pore Size, Hydrophobic Non

The 100 Pack Syringe Filters PTFE is a great choice for your laboratory filtration needs. With a 13mm membrane diameter and 0.22um pore size, this hydrophobic non-sterile filter is perfect for a varie...

Graco

The Graco-Sharpe 6770 Dryaire 3 Stage Membrane Filter System is the perfect choice for those looking for value-priced, high-quality tools. This system is leading the market by ensuring that products a...

When it comes to laboratory filtration, the choice of filter membrane is critical. Lab filter membranes are used for a wide range of purposes such as separating or purifying samples, sterilizing fluids, and capturing particles. There are several factors to consider when choosing a filter membrane, including the membrane material, pore size, membrane thickness, and overall compatibility. In this guide, we will provide valuable tips on selecting the right lab filter membrane for your application.

1. Material

One of the most important considerations when choosing a filter membrane is the material it is made from. There are several types of membrane materials to choose from, and each has its own strengths and weaknesses. The most common types of membrane materials include cellulose acetate, nylon, PTFE, and PVDF.
Cellulose Acetate
Cellulose acetate is a highly versatile and cost-effective membrane material. It is compatible with a wide range of solvents, making it ideal for many laboratory filtration applications. Cellulose acetate membranes are hydrophilic, meaning they have a high affinity for water, which makes them good for filtering aqueous solutions.
Nylon
Nylon is a strong, durable membrane material that is highly resistant to abrasion and tearing. Nylon membranes are hydrophilic, and like cellulose acetate membranes, they have a high affinity for water. Nylon membranes are ideal for applications that require low protein binding or when filtering nonpolar solvents.
PTFE
PTFE (polytetrafluoroethylene) is a highly inert membrane material that is resistant to most chemicals and solvents. PTFE membranes are highly hydrophobic, meaning they repel water, and are ideal for filtering organic solvents or other hydrophobic solutions. They are also highly resistant to high temperatures, making them well-suited for hot filtration.
PVDF
PVDF (polyvinylidene fluoride) is a high-performance membrane material that is highly resistant to harsh chemicals and solvents. PVDF membranes are hydrophilic, making them well-suited for filtering aqueous solutions. They are also highly resistant to high temperatures, making them suitable for hot filtration.

2. Pore Size

Another critical consideration when choosing a filter membrane is the pore size. The pore size determines what size particles can pass through the membrane and what size particles are retained. Pore sizes are usually expressed in microns, with smaller pore sizes indicating a finer filter.
Microfiltration
Microfiltration membranes typically have pore sizes ranging from 0.1-10 microns. They are used for separating particles that are visible under a microscope, such as bacteria, yeast, and cell debris.
Ultrafiltration
Ultrafiltration membranes have pore sizes ranging from 0.001-0.1 microns. They are used for separating macromolecules such as proteins, DNA, and viruses.
Nanofiltration
Nanofiltration membranes have pore sizes ranging from 0.001-0.01 microns. They are used for separating ions and small molecules.
Reverse Osmosis
Reverse osmosis membranes have the smallest pore sizes, ranging from 0.0001-0.001 microns. They are used for desalination and water purification.

3. Membrane Thickness

The thickness of the membrane can also affect its performance. Thicker membranes are more durable and can withstand higher pressures without breaking. However, thicker membranes may also have slower filtration rates and lower flow rates, which can be a disadvantage in some applications.
Thin Membranes
Thin membranes are typically less than 0.1 mm thick and are best suited for applications that require a high flow rate and fast filtration rate. They are also more prone to tearing, so they may not be ideal for applications that require high pressure or vacuum filtration.
Thick Membranes
Thick membranes are typically greater than 0.1 mm thick and are more durable than thin membranes. They are ideal for applications that require high pressure or vacuum filtration, and for filtering abrasive or viscous materials. However, they may have slower filtration rates and lower flow rates compared to thin membranes.

4. Compatibility

When choosing a filter membrane, it is important to consider its compatibility with the sample or solution being filtered. Membrane compatibility can depend on several factors, including the chemical composition of the sample, pH, temperature, and pressure.
Chemical Compatibility
Chemical compatibility is critical when choosing a filter membrane. Some membranes may be incompatible with certain chemicals or solvents, which can lead to membrane failure or sample contamination. It is important to select a membrane that is compatible with the chemicals and solvents in the sample.
pH Compatibility
The pH of the sample can also affect membrane compatibility. Some membranes may be more prone to chemical degradation or fouling at low or high pH values. It is important to select a membrane that is compatible with the pH range of the sample.
Temperature Compatibility
The temperature of the sample can also affect membrane compatibility. Some membranes may be prone to thermal degradation or fouling at high temperatures. It is important to select a membrane that is compatible with the temperature range of the sample.
Pressure Compatibility
The pressure of the filtration system can also affect membrane compatibility. Some membranes may be more prone to mechanical failure or bursting at high pressures. It is important to select a membrane that is compatible with the pressure range of the filtration system.

Conclusion

Choosing the right lab filter membrane can significantly impact the success of your laboratory filtration. By considering the membrane material, pore size, membrane thickness, and compatibility with your sample, you can select a membrane that fits your needs. Whether you are filtering aqueous solutions, separating particles, or purifying your samples, selecting the right lab filter membrane is critical to achieving accurate and reliable results.

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