sales@sterlitech.com 1-877-544-4420
Your cart is empty.

Cellulose Acetate Membrane Filter, 0.45 micron, 293 mm

Additional Information

SKU CA04529325
Price
$316.21
Porosity (um) 0.45
Size (mm) 293
Pack Size 25

Quick Overview

Composed of pure cellulose acetate, Sterlitech cellulose acetate (CA) membrane filters are Sterlitech’s lowest binding small filter devices. These cellulose membrane filters have a pore size of 0.45 microns and a diameter of 293 mm

Cellulose Acetate Membranes

Return to all Cellulose Acetate Membranes

Composed of pure cellulose acetate, Sterlitech cellulose acetate (CA) membrane filters are Sterlitech’s lowest binding small filter devices. These cellulose membrane filters are able to provide higher throughputs than other membrane filters and reduce the need for frequent filter changes when filtering proteinaceous solutions.

Available in pore sizes ranging from 0.2, 0.45, 0.65, 0.8, 1.2, 3.0, and 5.0 microns, these cellulose acetate membrane filters also come in larger rolls than what you see listed below and are available upon request.

Features and Benefits:

  • Lowest binding material available
  • Hydrophilic
  • High throughput
  • Strength and dimension stability
  • Uniform pore structure

 Applications:

  • Protein and enzyme filtration, sterilization
  • Biological fluid filtration sterilization
  • Tissue culture media sterilization
  • Diagnostic cytology
  • Receptor binding studies
  • Enhanced recovery of fastidious gram positive organisms

 

 

General Specifications

Sterilization Gamma Irradiation or Ethylene Oxide (EtO)
USP Class VI Testing Passed
Thickness 65-110 µm
BSA Protein Binding 3.8 µg/cm2
Max Operating Temp. 135 °C (274 °F)
Sealing Compatibility Ultrasonic, Heat, Radio Frequency and Insert
Pore Size Range 0.22 to 5.0 µm

What is the maximum temperature for the different filter membranes?

Q. What is the maximum temperature for the different filter membranes?
A. The maximum operating temperatures for Sterlitech filter membranes are listed below.

What is the difference between hydrophilic vs hydrophobic membranes?

Q. What is the difference between hydrophilic vs hydrophobic membranes?  

A. Hydrophilic filters posses an affinity for water and can be wetted with almost any liquid. Sterlitech carries a wide variety of hydrophilic membranes, including:

Hydrophobic filters lack an affinity for water and are best suited for venting applications. Example of hydrophobic filters are Sterlitech polypropylene membranes and Sterlitech PTFE, either laminated or unlaminated.

How is the performance of a filter measured?

Q. How is the performance of a filter measured?

A. Design and material selection determines the performance of a filter. Three important measures of filter performance are flow rate, throughput and bubblepoint, defined as follows:

Flow Rate: Determines the volume of liquid or air that will flow through the filter at a fixed pressure and temperature. This is usually displayed as ml/minute/cm^2.

Throughput: Describes the dirt handling capacity of a filter. Namely, how long the liquid will continue to flow through the membrane before the membrane clogs. The lower the flow rate and throughput, the longer it takes the researcher to complete the analysis.

Bubble point: A test to determine the integrity and pore size of a filter. The differential pressure at which a steady stream of gas bubbles is emitted from a wetted filter under specific test conditions. The bubble point test measures the largest pore. Bubble point is generally determined using water or an alcohol (methanol or isopropynol) and is displayed as PSI.

What variables affect the performance of a filter?

Q. What variables affect the performance of a filter?

A. Viscosity: The viscosity of a liquid determines its resistance to flow; the higher the viscosity, the lower the flow rate and the higher the differential pressure required to achieve a given flow rate.

Porosity: The flow rate of a membrane is directly proportional to the porosity of a membrane, eg. the more pores, the higher the flow rate.

Filter Area: The larger the filter area, the faster the flow rate at a given pressure differential and the larger the expected filter throughput volume prior to "clogging for a given solution."

How are pore sizes rated?

Q. How are pore sizes rated?

A. A pore size rating is determined by the diameter of the particle that it can be expected to retain with a defined, high degree of efficiency. The rating is stated in nominal or absolute terms.

How is pore size determined?

Q. How is pore size determined?

A. The pore size of a filter, normally stated in micrometers (µm), is determined by the diameter of a particle that is retained by the filter. This is determined using a challenge organism and/or bubble point testing.

What is the maximum operating pressure for the Capsule filters?

Q. What is the maximum operating pressure for the Capsule filters?

A. The maximum operating pressure for the Capsule filters varies with liquids and gases.

Liquids - 80 psi
Gases - 55 psi

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

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

A. Nominal pore size rating describes the ability of the filter to retain the majority of the particles at the rated pore size and larger (60-9%). Glass fiber filters and screen filters are a good example of nominally rated filtration.

Absolute size rating describes the pore size at which a challenge organism of a particular size will be retained with 99.9% efficiency under strictly defined test conditions. Most membrane filters are rated as absolute terms.

What organisms are used to determine pore size?

Q. What organisms are used to determine pore size?

A.

Pore Size

Challenge Organism

0.1 µm

Acholeplasma laidlawii

0.2 µm

Brevundimonas diminuta

0.45 µm

Serratia marcescens

0.8 µm

Lactobacillus species

1 µm

Candida albicans

What is a bubble point test?

Q. What is a bubble point test?

A. A test to determine the integrity and pore size of a filter. The differential pressure at which a steady stream of gas bubbles is emitted from a wetted filter under specific test conditions. The bubble point test measures the largest pore.

How many times can the Capsule filters be autoclaved?

Q. How many times can the Capsule filters be autoclaved?

A. The Capsule filters can be autoclaved at 121°C for up to five 30 min cycles.

What is a KD (kiloDalton)?

Q. What is a KD (kiloDalton)?

A. KD, or kD is the abbreviation for kiloDalton and is equal to 1,000 Molecular Weight Cut-Off (MWCO).  A solution having a molecular weight of 1,000,000 would be equivalent to 1,000 KD.  The table listed below gives a general relationship between kiloDalton to Microns (micrometers), Nanometers, and Angstroms:

KD's Microns Nanometers Angstroms
1,000 KD 0.1 micron 100 1000
500 KD 0.02 micron 20 200
200 KD 0.01 micron 10 100
50 KD 0.004 micron 4 40
10 KD 0.0025 micron 2.5 25
5 KD 0.0015 micron 1.5 15

 

As a general rule, choose a membrane with a pore size (MWCO) that is less than half of the compound of interest.

Are Sterlitech Syringe Filters certified pyrogen free?

Q. Are Sterlitech Syringe Filters certified pyrogen free?

A. No, we do not perform pyrogen tests on our filters.

Can I filter aqueous solutions through a polytetrafluoroethylene (PTFE) hydrophobic membrane?

Q. Can I filter aqueous solutions through a polytetrafluoroethylene (PTFE) hydrophobic membrane?

A. Yes, but the membrane requires pre-wetting with alcohol (like Isopropanol or Methanol) to establish flow with reasonable pressure differentials.  We often use a 60/40 solution (60 Isopropanol/ 40 water) to prewet the membrane.

I am interested in gridded, sterile membranes, but I am concerned about the high costs of shipping Nitrocellulose internationally. Do you have other types of membranes that can be used?

Q. I am interested in gridded, sterile membranes, but I am concerned about the high costs of shipping Nitrocellulose internationally. Do you have other types of membranes that can be used?

A. We offer two alternatives to gridded Nitrocellulose membranes, which incur no Hazardous materials charges, Nylon and Polyethersulfone (PES).

Can my Nylon membranes be treated exactly like Nitrocellulose during colony hybridization?

Q. Can my Nylon membranes be treated exactly like Nitrocellulose during colony hybridization?

A. One of our customers was wondering if drying E. coli on Nylon transfer membranes prior to denaturation effects the colony hybridization.  Further, they were wondering if after drying the membranes, would treating with SDS before denaturation effect the hybridization?  The answer is...NO, this will work!  The hybridization will not be adversely affected.  This is the procedure they used.

Procedure

  1. performed colony lifts
  2. air dried nylon membranes with E. coli
  3. incubated 3 minutes on 3MM paper saturated with 10% SDS.
  4. incubated 5 minutes on 3MM with 0.5M NaOH, 1.5 M NaCI.
  5. incubated 5 minutes on 3MM with 1.5 M NaCI, 0.5M Tris pH 7.5.
  6. incubated 5 minutes on 3MM with 2X SSC.
  7. UV crosslinked without drying.
  8. prehybridized and hybridized as usual.

Which membrane is recommended for size characterization analysis?

Q. Which membrane is recommended for size characterization analysis?

A. The polycarbonate track-etch (PCTE) membrane is recommended for size characterization analyses.  The pores of this membrane are exceptionally uniform and are offered as low as 0.01um in size.

We would like to filter fluids and wonder which membrane to use for cytology?

Q. We would like to filter fluids and wonder which membrane to use for cytology?

A. Cytology:

Cells are removed from the body, then stained and examined under a microscopy.  The trained physician or cytotechnologist is able to detect the presence of malignancy.

Use of either the 5.0 um or 8.0 um polycarbonate membrane.

  • Pore Structure and Porosity

Minimum clogging by red blood cells and protein.  Well preserved cellular morphology.  High recovery rate.  Rapid filtration with low pressure.  Surface capture.  No cover slip edge sealing.

  • Smooth, Flat Surface

High cell visibility.  Improved morphologic resolution.  Surface capture.

  • "Thinness"

Easy mounting.  Immediate microscopic examination.

  • Low absorption and adsorption

Improved contrast.  Greater cell isolation.  Easy mounting.

  • Non-staining

Improved contrast.  Simpler microscopic analysis routine.

  • Transparency

Simpler microscopic analysis routine.

  • Chemical Resistance

Unaffected by conventional cytologic fixatives and stains.

  • Strength

Less critical handling techniques needed.

Equipment needed
25mm or 47mm filter holder
Stainless steel forceps
5.0um - 25mm or 47mm PCTE membranes
General Procedure - procedure may vary

Most body fluids contain blood in various amounts.
Collect them in a container with an anticoagulant.
One recommended using polycarbonate membranes is EDTA (0.1 molar)
For each 5-ml specimen generally 1 ml of EDTA solution is sufficient; for specimens of higher blood content, 1 ml of EDTA for each 20-ml specimen is recommended.
Fixatives or preservatives recommended are:
30 to 50% alchol
10% buffered formalin
IMucolexx

Diagnostic procedures

For optimum results employ a limited amount of fluid when preparing specimens that exhibit high cell concentrations.  If too much fluid is used with cellular specimens, such as endometrial washing, ascites, gastrics, pleurals, sputums, and urines, the cells crowd and clog the filter.  A 5-ml specimen or smaller volume provides a good sample if it is properly mixed before filtration.

The 8um pore size is recommended for filtering most body fluids. 

For samples of higher probability of small cancer cells or fewer cancer cells, such as CSF or baby urine, the 5um pore size is recommended.

um = micrometer = micron

Which membranes are recommended for gravimetric analysis?

Q. Which membranes are recommended for gravimetric analysis?

A. We have several membranes to recommend for gravimetric analysis.

  • Mixed Cellulose Esters (MCE) Membrane Filters, Plain: In gravimetric analysis using ashing techniques, (MCE) Nitrocellulose filters yield a residue of less than 0.045% of their initial weight.  They are hydrophilic with a non-cytotoxic wetting agent extractable level of less than 4% of their weight.
  • Polycarbonate Track-Etch Membranes (PCTE) - 25mm:  Polycarbonate Track-Etch or our Polyester Track-Etch (PETE) membranes are two membranes that offer exceptionally low tare weights, are non-hygroscopic, and exhibit extremely low absorption and adsorption losses.

Since these membranes are non-hygroscopic, they are particularly well suited for gravimetric analysis.  They do not require drying when used directly out of the package.  If they are wet, they can be dried rapidly and will not pick up moisture from the air during weighing.


  • Analytical Filter Funnels Funnels are available complete with low hold-up polypropylene support pads, gravimetric analysis is one of the ideal applications for this product.  Each package of 12 units comes with an extender that adapts the unit for side-arm flask filtrations.  Optional No. 8 rubber stoppers may be ordered for filtering with flask.

  • Glass Fiber Filters & Prefilters Glass fiber filters without binders are recommended for analytical and gravimetric determinations.


How does Epifluorescent microscopy work?

Q. How does Epifluorescent microscopy work?

A. Epifluorescent microscopy uses a UV-visible light source and specific filters to excite fluorescent stains added to microbiological specimens to aid in identifications and enumeration.

Sterlitech Black Polycarbonate membranes are ideal for epifluorescent microscopy, since they retain bacteria on the surface of the membrane and provide a non-distracting background to view fluorescence against.

What membrane has been used to prevent water vapor from passing, but would allow regular air to pass?

Q. What membrane has been used to prevent water vapor from passing, but would allow regular air to pass?

A. The common membranes used for gas/air filtration are our hydrophobic Polypropylene and PTFE Membranes.  They both inhibit the flow of water vapors (hydrophilic) while allowing regular air molecules (such as oxygen) to pass.

For the PTFE membrane the water intrusion pressure (which is inversely related to pore size) is greatest with the smaller sizes:

Water Intrusion of PTFE
Pore Size (um) Water Intrusion Pressure (psi)
0.2 40
0.45 20
1.0 7
3.0 2
5.0 1

What is the shelf life of your membranes?

Q. What is the shelf life of your membranes?

A. Cellulose acetate (CA) and nitrocellulose (MCE) membranes will last 2 1/2 to 3 years before reverting to their natural hydrophobic states.  Nylon, on the other hand, is naturally hydrophilic so it does not have a shelf life.

An easy test for older membranes is to perform a "wetting out" test.  Dipping a small portion of the membrane into water (hydrophilic membranes) or an alcohol (hydrophobic membranes) works well.  If the membrane absorbs the material, or "wets out", it has not gone past the shelf life.

Is your Cellullose Acetate (CA) membrane made of mono-, di-, or triacetate?

Q. Is your Cellullose Acetate (CA) membrane made of mono-, di-, or triacetate?

A. Sterlitech CA membranes are made from cellulose diacetate.

What is the difference between cellulose and "regenerated" cellulose?

Q. What is the difference between cellulose and "regenerated" cellulose?

A. Cellulose Acetate is a specific type of polymer used for low protein binding applications.

Regenerated cellulose, on the other hand, is a pure cellulose which has been treated in a chemical bath for better chemical resistance.  It has a lower molecular weight and the structure is not as orderly as it is for a cellulose.  An example of regenerated cellulose is "cellophane" used in a dialysis application for artificial kidneys.

What is the amount of Lignin, if any, in the Cellulose Acetate membranes?

Q. What is the amount of Lignin, if any, in the Cellulose Acetate membranes?

A. According to the MSDS, the product is 100% cellulose acetate (CA). Some Lignin may still be found within the membrane material due to the fact that the Lignin comes from the cellulose cell walls.

CA is available as a membrane roll, or flat sheet, or syringe filter.

What is the function of a binder in the glass fiber filter?

Q. What is the function of a binder in the glass fiber filter?

A. The binders purpose is to increase strength and dirt-loading capacity while decreasing fiber slough.  They are used for filtration of long duration under pressure.  Binders are Acrylic material added to the borosilicate glass fibers.

Our TCLP glass fiber filters have a pore size of 0.7um and are available.  Glass fiber filters without binders are autoclavable and have a maximum temperature of 500°C.

What is the thickness of the polypropylene membranes?

Q. What is the thickness of the polypropylene membranes?

A. The thicknesses of our polypropylene membranes are:

  • 0.1um polypropylene: 75-110um
  • 0.2um polypropylene: 140-180um
  • 0.45um polypropylene: 140-180um

What are the maximum filtration volumes for the 17mm and 30mm syringe filters?

Q.  What are the maximum filtration volumes for the 17mm and 30mm syringe filters?

A.  The 17mm and 30mm syringe filters offer greater filtration volume than smaller filters.

  • 17 - 12ml
  • 17 with glass fiber prefilter - 20ml
  • 30 - 120ml
  • 30 with glass fiber prefilter - 180ml

What is the maximum operating temperature for the 17mm and 30mm syringe filters?

Q. What is the maximum operating temperature for the 17mm and 30mm syringe filters?

A.  The 17mm and 30mm syringe filters have a polypropylene housing, which allows them to withstand higher temperatures than an acrylic housing.  The 17mm and 30mm's have a maximum operating temperature of 180°C.  They are also able to be autoclaved.

What is a membrane filter?

A. A membrane filter is a matrix with channels which act as a screen and retain particles larger than the filter on the surface of the membrane.  Membrane filters allow the retention of sub-micron particles and organisms.

Filtration definations and relative pore size
Microfiltration (MF) 0.1 - 5.0 micron
Ultrafiltration (UF) 0.01-0.1 micron
Nanofiltration (NF), Reverse Osmosis (RO) 0.001 (theoretical)

Note that pores have not been observed in RO or NF membranes using a microscope. 

What is the difference between hydrophilic vs hydrophobic membranes?

A. Hydrophilic filters posses an affinity for water and can be wetted with almost any liquid. Hydrophilic membranes inlcude:

  • Silver Metal
  • Polyethersulfone (PES)
  • Glass Fiber
  • Polycarbonate Track Etch (PCTE)
  • Polyester (PETE)
  • Mixed Cellulose Esters (MCE)
  • Nylon
  • Cellulose Acetate

Hydrophobic filters lack an affinity for water and are best suited for venting applications. Example of hydrophobic filters are polypropylene membranes and PTFE (Teflon®), either laminated or unlaminated.

How is the performance of a filter measured?

A. Design and material selection determines the performance of a filter. Three important measures of filter performance are flow rate, throughput and bubblepoint, defined as follows:

Flow Rate: Determines the volume of liquid or air that will flow through the filter at a fixed pressure and temperature. This is usually displayed as ml/minute/cm^2.

Throughput: Describes the dirt handling capacity of a filter. Namely, how long the liquid will continue to flow through the membrane before the membrane clogs. The lower the flow rate and throughput, the longer it takes the researcher to complete the analysis.

Bubble point: A test to determine the integrity and pore size of a filter. The differential pressure at which a steady stream of gas bubbles is emitted from a wetted filter under specific test conditions. The bubble point test measures the largest pore. Bubble point is generally determined using water or an alcohol (methanol or isopropynol) and is displayed as PSI.

What variables affect the performance of a filter?

A. Viscosity: The viscosity of a liquid determines its resistance to flow; the higher the viscosity, the lower the flow rate and the higher the differential pressure required to achieve a given flow rate.

Porosity: The flow rate of a membrane is directly proportional to the porosity of a membrane, eg. the more pores, the higher the flow rate.

Filter Area: The larger the filter area, the faster the flow rate at a given pressure differential and the larger the expected filter throughput volume prior to "clogging for a given solution."

How are pore sizes rated?

A. A pore size rating is determined by the diameter of the particle that it can be expected to retain with a defined, high degree of efficiency. The rating is stated in nominal or absolute terms.

How is pore size determined?

A. The pore size of a filter, normally stated in micrometers (µm), is determined by the diameter of a particle that is retained by the filter. This is determined using a challenge organism and/or bubble point testing.

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

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

A. Nominal pore size rating describes the ability of the filter to retain the majority of the particles at the rated pore size and larger (60-9%). Glass fiber filters and screen filters are a good example of nominally rated filtration.

Absolute size rating describes the pore size at which a challenge organism of a particular size will be retained with 99.9% efficiency under strictly defined test conditions. Most membrane filters are rated as absolute terms.

What organisms are used to determine pore size?

A.

Pore Size

Challenge Organism

0.1 µm

Acholeplasma laidlawii

0.2 µm

Brevundimonas diminuta

0.45 µm

Serratia marcescens

0.8 µm

Lactobacillus species

1 µm

Candida albicans

What is a bubble point test?

A. A test to determine the integrity and pore size of a filter. The differential pressure at which a steady stream of gas bubbles is emitted from a wetted filter under specific test conditions. The bubble point test measures the largest pore.

What is a KD (kiloDalton)?

A. KD, or kD is the abbreviation for kiloDalton and is equal to 1,000 Molecular Weight Cut-Off (MWCO).  A solution having a molecular weight of 1,000,000 would be equivalent to 1,000 KD.  The table listed below gives a general relationship between kiloDalton to Microns (micrometers), Nanometers, and Angstroms:

KD's Microns Nanometers Angstroms
1,000 KD 0.1 micron 100 1000
500 KD 0.02 micron 20 200
200 KD 0.01 micron 10 100
50 KD 0.004 micron 4 40
10 KD 0.0025 micron 2.5 25
5 KD 0.0015 micron 1.5 15

 

As a general rule, choose a membrane with a pore size (MWCO) that is less than half of the compound of interest.

Can I filter aqueous solutions through a polytetrafluoroethylene (PTFE) hydrophobic membrane?

A. Yes, but the membrane requires pre-wetting with alcohol (like Isopropanol or Methanol) to establish flow with reasonable pressure differentials.  We often use a 60/40 solution (60 Isopropanol/ 40 water) to prewet the membrane.

Which membrane is recommended for size characterization analysis?

A. The polycarbonate track-etch (PCTE) membrane is recommended for size characterization analyses. The pores of this membrane are exceptionally uniform and are offered as low as 0.01um in size.

We would like to filter fluids and wonder which membrane to use for cytology?

A. Cytology:

Cells are removed from the body, then stained and examined under a microscopy.  The trained physician or cytotechnologist is able to detect the presence of malignancy.

Use of either the 5.0 um or 8.0 um polycarbonate membrane.

  • Pore Structure and Porosity

Minimum clogging by red blood cells and protein.  Well preserved cellular morphology.  High recovery rate.  Rapid filtration with low pressure.  Surface capture.  No cover slip edge sealing.

  • Smooth, Flat Surface

High cell visibility.  Improved morphologic resolution.  Surface capture.

  • "Thinness"

Easy mounting.  Immediate microscopic examination.

  • Low absorption and adsorption

Improved contrast.  Greater cell isolation.  Easy mounting.

  • Non-staining

Improved contrast.  Simpler microscopic analysis routine.

  • Transparency

Simpler microscopic analysis routine.

  • Chemical Resistance

Unaffected by conventional cytologic fixatives and stains.

  • Strength

Less critical handling techniques needed.

Equipment needed
25mm or 47mm filter holder
Stainless steel forceps
5.0um - 25mm or 47mm PCTE membranes
General Procedure - procedure may vary

Most body fluids contain blood in various amounts.
Collect them in a container with an anticoagulant.
One recommended using polycarbonate membranes is EDTA (0.1 molar)
For each 5-ml specimen generally 1 ml of EDTA solution is sufficient; for specimens of higher blood content, 1 ml of EDTA for each 20-ml specimen is recommended.
Fixatives or preservatives recommended are:
30 to 50% alchol
10% buffered formalin
IMucolexx

Diagnostic procedures

For optimum results employ a limited amount of fluid when preparing specimens that exhibit high cell concentrations.  If too much fluid is used with cellular specimens, such as endometrial washing, ascites, gastrics, pleurals, sputums, and urines, the cells crowd and clog the filter.  A 5-ml specimen or smaller volume provides a good sample if it is properly mixed before filtration.

The 8um pore size is recommended for filtering most body fluids. 

For samples of higher probability of small cancer cells or fewer cancer cells, such as CSF or baby urine, the 5um pore size is recommended.

um = micrometer = micron

Which membranes are recommended for gravimetric analysis?

A. We have several membranes to recommend for gravimetric analysis.

  • Mixed Cellulose Esters (MCE) Membrane Filters, Plain: In gravimetric analysis using ashing techniques, (MCE) Nitrocellulose filters yield a residue of less than 0.045% of their initial weight.  They are hydrophilic with a non-cytotoxic wetting agent extractable level of less than 4% of their weight.
  • Polycarbonate Track-Etch Membranes (PCTE) - 25mm:  Polycarbonate Track-Etch or our Polyester Track-Etch (PETE) membranes are two membranes that offer exceptionally low tare weights, are non-hygroscopic, and exhibit extremely low absorption and adsorption losses.

Since these membranes are non-hygroscopic, they are particularly well suited for gravimetric analysis.  They do not require drying when used directly out of the package.  If they are wet, they can be dried rapidly and will not pick up moisture from the air during weighing.


  • Analytical Filter Funnels:  Funnels are available complete with low hold-up polypropylene support pads, gravimetric analysis is one of the ideal applications for this product.  Each package of 12 units comes with an extender that adapts the unit for side-arm flask filtrations.  Optional No. 8 rubber stoppers may be ordered for filtering with flask.

  • Glass Fiber Filters & Prefilters Glass fiber filters without binders are recommended for analytical and gravimetric determinations.

How does Epifluorescent microscopy work?

Q. How does Epifluorescent microscopy work?

A. Epifluorescent microscopy uses a UV-visible light source and specific filters to excite fluorescent stains added to microbiological specimens to aid in identifications and enumeration.

Black Polycarbonate membranes are ideal for epifluorescent microscopy, since they retain bacteria on the surface of the membrane and provide a non-distracting background to view fluorescence against.

What membrane has been used to prevent water vapor from passing, but would allow regular air to pass?

A. The common membranes used for gas/air filtration are hydrophobic Polypropylene and PTFE Membranes. They both inhibit the flow of water vapors (hydrophilic) while allowing regular air molecules (such as oxygen) to pass.

For the PTFE membrane the water intrusion pressure (which is inversely related to pore size) is greatest with the smaller sizes:

Water Intrusion of PTFE
Pore Size (um) Water Intrusion Pressure (psi)
0.2 40
0.45 20
1.0 7
3.0 2
5.0 1

What is the function of a binder in the glass fiber filter?

A. The binder's purpose is to increase strength and dirt-loading capacity while decreasing fiber slough.  They are used for filtration of long duration under pressure.  Binders are acrylic material added to the borosilicate glass fibers.

Our TCLP glass fiber filters have a pore size of 0.7um and are available. Glass fiber filters without binders are autoclavable and have a maximum temperature of 500°C.