Sartorius Products Are Now Available. Shop Now!

Advantec Unlaminated PTFE Hydrophilic Membranes

Advantec's line of unsupported, hydrophilic, pure PTFE membranes are ideally suited for use in HPLC separations and other applications involving mixtures of aqueous and organic solvents. 

Choosing PTFE as a filtration medium ensures maximum chemical compatibility, wide-ranging thermal/pH resistance, and high flow rates/minimal aqueous extractables. In addition to the durability provided by PTFE support, these membranes also offer a unique affinity for water. This dynamic integration of chemical properties facilitates optimal sample analysis and allows users to realize more efficiencies with minimal process times. With no need to pre-wet the membrane or flush pre-wetting chemicals, these hydrophilic membranes are able to maintain filtration integrity, allow optical clarity when wet, reduce interference with biological processes, and maximize shelf-life. In order to accommodate your diverse filtration needs, Sterlitech now offers this ultra-versatile membrane technology in a comprehensive range of membrane diameters and pore sizes.

SKUProduct Name Pore Size Diameter (mm) Pack Size Est Ship Price
H010A013A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.1 Micron, 13mm, 100/Pk 0.1 13 100 3-4 weeks
$176.12
H010A025A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.1 Micron, 25mm, 100/Pk 0.1 25 100 3-4 weeks
$203.53
H010A047A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.1 Micron, 47mm, 100/Pk 0.1 47 100 3-4 weeks
$276.11
H010A090C PTFE Unlaminated Membrane Filters, Hydrophilic, 0.1 Micron, 90mm, 25/Pk 0.1 90 25 3-4 weeks
$225.18
H010A142C PTFE Unlaminated Membrane Filters, Hydrophilic, 0.1 Micron, 142mm, 25/Pk 0.1 142 25 3-4 weeks
$382.69
H010A293D PTFE Unlaminated Membrane Filters, Hydrophilic, 0.1 Micron, 293mm, 10/Pk 0.1 293 10 3-4 weeks
$694.63
H020A013A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.2 Micron, 13mm, 100/Pk 0.2 13 100 3-4 weeks
$176.12
H020A025A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.2 Micron, 25mm, 100/Pk 0.2 25 100 3-4 weeks
$203.53
H020A047A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.2 Micron, 47mm, 100/Pk 0.2 47 100 3-4 weeks
$276.11
H020A090C PTFE Unlaminated Membrane Filters, Hydrophilic, 0.2 Micron, 90mm, 25/Pk 0.2 90 25 3-4 weeks
$225.18
H020A142C PTFE Unlaminated Membrane Filters, Hydrophilic, 0.2 Micron, 142mm, 25/Pk 0.2 142 25 3-4 weeks
$328.98
H020A293D PTFE Unlaminated Membrane Filters, Hydrophilic, 0.2 Micron, 293mm, 10/Pk 0.2 293 10 3-4 weeks
$798.50
H050A013A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.5 Micron, 13mm, 100/Pk 0.5 13 100 3-4 weeks
$176.12
H050A025A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.5 Micron, 25mm, 100/Pk 0.5 25 100 3-4 weeks
$203.53
H050A047A PTFE Unlaminated Membrane Filters, Hydrophilic, 0.5 Micron, 47mm, 100/Pk 0.5 47 100 3-4 weeks
$276.11
H050A090C PTFE Unlaminated Membrane Filters, Hydrophilic, 0.5 Micron, 90mm, 25/Pk 0.5 90 25 3-4 weeks
$225.18
H050A142C PTFE Unlaminated Membrane Filters, Hydrophilic, 0.5 Micron, 142mm, 25/Pk 0.5 142 25 3-4 weeks
$328.98
H050A293D PTFE Unlaminated Membrane Filters, Hydrophilic, 0.5 Micron, 293mm, 10/Pk 0.5 293 10 3-4 weeks
$798.50
H100A013A PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 13mm, 100/Pk 1 13 100 3-4 weeks
$176.12
H100A025A PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 25mm, 100/Pk 1 25 100 3-4 weeks
$203.53
H100A047A PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 47mm, 100/Pk 1 47 100 3-4 weeks
$276.11
H100A090C PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 90mm, 25/Pk 1 90 25 3-4 weeks
$225.18
H100A142C PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 142mm, 25/Pk 1 142 25 3-4 weeks
$338.34
H100A293D PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 293mm, 10/Pk 1 293 10 3-4 weeks
$798.50
H100A330R PTFE Unlaminated Membrane Filters, Hydrophilic, 1.0 Micron, 330x3000mm, 1/Pk (Minimum = 5 rolls) 1 300 x 3000 1 3-4 weeks
$783.35
per page
Set Descending Direction

Summary of Features:

  • Maximum chemical and pH resistance
  • High flow rates with minimal aqueous extractables (<0.3wt%)
  • Optically clear when wet with water
  • Unlaminated 
  • Ideal for HPLC and other mixtures of aqueous and organic solvents

Applications:

  • Chemicals, Petrochemicals, and Fertilizers
  • Computers, Semiconductors, and Electronics
  • Food and Beverage
  • Glass and Glass Products
  • Healthcare and Hospitals
  • Metals and Metals Fabrication, Mining (Coal, Minerals, Metals)
  • Pharmaceutical and Medicine
  • Power Generation
  • HPLC Seperations

Advantec General Hydrophilic PTFE Filter Specifications Product Performance:

Pore Size (μm) 0.10 0.20 0.50 1.00
Bubble Point (MPa)ᵇ ≥0.38 (≥55.1 psi) ≥0.24 (≥34.8 psi) ≥0.14 (≥20.3 psi) ≥0.083 (≥12.0 psi)
Flow Rate (H2O)¹ 14 21 39 73
Flow Rate (Air)² 1.6 2.1 2.9 5.7
Porosity (%)ᶜ 71 71 79 83
Thickness (µm) 35 35 35 35
Max. Operating T° (°C) 100 100 100 100
Notes:
a: Flow Rate indicates initial flow rate at 10 psi using a KGS 47 filter holder:</span ></em >
1:</strong >Water:</span > (mL/min/cm2) using prefiltered (0.1μm) water </span ></em >
2:Air: (L/min/cm2</sup >) using prefiltered nitrogen</em >
b: Bubble Point is the minimum pressure required to force air through a membrane which has been pre-wet with water.</span ></em >
c: Porosity refers to the percent open area.</span ></em >

Documentation

Frequently Asked Questions


The pores of microporous membrane filters act as small capillaries.  When hydrophilic membranes come into contact with water, capillary action associated with surface tension forces causes the water to spontaneously enter and fill the pores.  In this manner, the membranes are easily wetted and allow the bulk flow of water through the pores.  Once wetted, hydrophilic membranes will not allow the bulk flow of air or other gasses, unless they are applied at pressures greater than the membrane’s bubble point.

Hydrophilic membrane filters are typically used with water and aqueous solutions.  They can also be used with compatible non-aqueous fluids.  Hydrophilic membrane filters are typically not used for air, gas or vent filtration since the filters would block flow if inadvertently wetted, by condensation for example.

When hydrophobic membranes come into contact with water, surface tension forces act to repel the water from the pores.  Water will not enter the pores and the membranes will act as a barrier to water flow, unless the water is applied at pressures greater than the membrane’s water entry pressure.  Low surface tension fluids, such as alcohols, can spontaneously enter and fill the pores of hydrophobic membranes.  Once all the air in the pores is displaced, there are no longer any surface tension forces and water can easily enter the pores, displace the low surface tension fluid, and pass through the membrane.  The membrane will then allow bulk flow of water for as long as the pore remain water filled.  If the membrane is allowed to dry (i.e. air enters the pores), then it must be pre-wet with a low surface tension fluid again prior to use with water.

Hydrophobic membrane filters are typically used with compatible non-aqueous fluids.  They are also commonly used as air, gas, or vent filters.  Hydrophobic membrane filters are sometimes used with water or aqueous solutions; and, in these applications, they must first be prewet with a low surface tension, water miscible fluid prior to use.

PTFE Membranes are extremely hydrophobic and exhibit superior chemical compatability with agressive solutions. 

Q. What is the difference between nominal and absolute pore size ratings?

Nominal pore size ratings are provided as a general indication of filter retention.  It is understood that some quantity of particles greater than, and equal to, the nominal pore size ratings will pass through the filters into the filtrate.  Some manufactures may associate nominal pore size ratings with percentage filtration efficiencies. Nominal pore size ratings vary from manufacturer to manufacturer and, consequently, are not necessarily equivalent. Filters from different manufactures with similar nominal pore size ratings may not actually exhibit similar retention characteristics.

Absolute pore size ratings are typically based on retention studies performed using challenge suspensions of standard microorganism cultures or particles of known size. Absolute pore size ratings represent the size of the smallest microorganisms or particles completely retained during these studies. Absolute pore size ratings are almost always correlated to bubble point specifications that are used for quality control during membrane manufacturing. For the most part, absolute pore size ratings, especially those based on microbial retention, are comparable from manufacturer to manufacturer. There is more uncertainty for absolute pore size ratings based on particle retention studies, especially for pore size ratings <0.2µm, since there are no standard methods for these studies.

Regardless of pore size ratings, it is important to understand that application conditions do influence particle retention. Even filters with absolute pore size ratings can be operated in conditions that will allow unexpectedly sized particles to pass.


The Advantec unlaminated PTFE hydrophilic membrane filters are not permanently hydrophilic. Once wetted, they will become hydrophobic if allowed to dry. Also, they will become hydrophobic if autoclave sterilized or otherwise exposed to temperatures >100°C.

The pore size refers to the diameter of the individual pores in a membrane filter.   Pore size is typically specified in micrometers (µm).   Most membranes and filter media actually contain a distribution of pore sizes.  Nominal pore size ratings typically refer to the predominant pore size of a filtration media; pores larger and smaller than the nominal rating may be present.  Absolute pore size ratings typically refer to the largest pore size of a membrane and it is expected that all pores will be equal to or smaller than the absolute rating.

For the polycarbonate track-etch (PCTE) and polyester track-etch (PETE) membrane filters, porosity is the percent of the total surface area occupied by the pores; it typically ranges from <1% to 16%.  For the other membrane filters, porosity is the percent of the total volume occupied by the pores; it typically ranges from 40 to 80%.

You can find the Sterlitech compatibility guide.  It is important to realize that application conditions, such as operating temperature, affect compatibility.  Please contact us at [email protected] if you need assistance.

The bubble point is the minimum amount of pressure required to push air bubbles through the largest pore of a wet membrane.  The bubble point is inversely proportional to the pore diameter, as the pore diameter decreases the bubble point increases and vice versa.

Retention efficiency of membrane filters can be directly measured by challenging the filters with suspensions of standard microorganism cultures or particles of known size.  Unfortunately, such efficiency testing is necessarily destructive.  However, since retention characteristics are dependent on pore size, it is possible to correlate destructive challenge testing results to non-destructive membrane bubble point tests.  In this manner, the relationship between membrane pore size and membrane bubble point is empirically determined.  Typically, a minimum bubble point can be determined and specified for a particular pore size rating.  The bubble point specification is then used for quality control during membrane manufacture.  The bubble point can also be used by the consumer as a nondestructive test to verify membrane integrity before and/or after use.    

Depth filters are constructed with relatively thick filtration media and typically have nominal pore size ratings >1µm. Due to their large void volume, they capture significant amounts of particulate within their pore structure.
Membrane filters are typically composed of polymers that have been chemically processed, resulting in highly porous thin films with microscopic pore structures. Membrane filters typically have absolute pore size ratings <1µm, with some exceptions. Because of their very fine pore structure, membrane filters tend to trap the majority of particles on the surface. However, smaller particles with diameters near or below the pore size rating can be captured within the membrane or pass through the membrane.

membrane filters vs separator papers

To ensure ease of use, the membrane filters as stacked in their packaging are interleafed with layers of separator paper.  In most cases, the membrane filters will be white in color except for the track-etch membranes which are colorless and translucent.  In some special cases, the membranes will be dyed dark grey to black in appearance.  In all cases, the separator paper will be a different color than the membrane and is usually not white.  Please contact us at [email protected] if you need assistance.