Molecular Weight Standards, GPC/SEC Calibration Kits and Validation Standards

PSS supplies certified standards that meet the requirements of DIN 55672 and ISO/EN 13885. All reference materials are characterized with GPC/SEC to obtain molecular weight values. These values are subsequently confirmed by alternative methods such as Laser Light Scattering, Viscometry, MALDI-ToF, VPO and NMR.

Each product comes with a Certificate of Analysis, which provides the characterization information, the testing parameters, the molecular weight values (Mn, Mw, Mp, PDI) and the chromatogram. Calibration kits include a calibration report.

Products Sorted by Type - Click on the Material to open the Product List

  • Aqueous Mobile Phase
  • Organic Mobile Phase
  • Specialties / Particle Standards
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Poly(ethylene glycol)
Order No. Details Nominal MW Description PDI Packsize
PSS-pegkit picture_as_pdf Kit Poly(ethylene glycol), 10 x 0.5 g, Mp 106 - 44 000 Da
PSS-pegkitval picture_as_pdf LCCCValid Validation Kit, 6 x 3 and 3 x 4 Vials-1.5ml
LCCCValid LCCCValid Validation Kit, 6 x 3 and 3 x 4 Vials-1.5ml and Validation Column
PSS-pegkitvala picture_as_pdf LCCCValid Validation Kit, PEG Standards, 10 x 3 Vials-1.5ml
PSS-peg62 picture_as_pdf 62 Poly(ethylene glycol) =1,00 1000,00
PSS-peg330 picture_as_pdf 330 Poly(ethylene glycol) <1,25 1000,00
PSS-peg400 picture_as_pdf 400 Poly(ethylene glycol) <1,25 1000,00
PSS-peg600 picture_as_pdf 600 Poly(ethylene glycol) <1,25 1000,00
PSS-peg1k picture_as_pdf 1000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg1.5k picture_as_pdf 1500 Poly(ethylene glycol) <1,25 1000,00
PSS-peg2k picture_as_pdf 2000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg3k picture_as_pdf 3000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg4k picture_as_pdf 4000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg6k picture_as_pdf 6000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg10k picture_as_pdf 10000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg12k picture_as_pdf 12000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg18k picture_as_pdf 18000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg22k picture_as_pdf 22000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg26k picture_as_pdf 26000 Poly(ethylene glycol) <1,25 1000,00
PSS-peg42k picture_as_pdf 42000 Poly(ethylene glycol) <1,30 1000,00
PSS-peg106 picture_as_pdf 106 Poly(ethylene glycol) P2 =1,00 1000,00
PSS-peg150 picture_as_pdf 150 Poly(ethylene glycol) P3 =1,00 1000,00
PSS-peg194 picture_as_pdf 194 Poly(ethylene glycol) P4 =1,00 1000,00
PSS-peg238 picture_as_pdf 238 Poly(ethylene glycol) =1,00 1000,00
PSS-peg282 picture_as_pdf 282 Poly(ethylene glycol) P6 =1,00 1000,00
PSS-pegkitr1 picture_as_pdf ReadyCal-Kit Poly(ethylene glycol), 3 x 10 Vials-1.5ml, Mp 238 - 44 000 Da

Organic Mobile Phase

Product Download

Material safety data sheet: SDS


Material safety data sheet: SDS


Material safety data sheet: SDS

Poly(carbonate) broad

Material safety data sheet: SDS

Poly(dimethyl siloxane)

Material safety data sheet: SDS


Material safety data sheet: SDS

Poly(ethylene terephthalate)

Material safety data sheet: SDS

Poly(ethyl methacrylate)

Material safety data sheet: SDS


Material safety data sheet: SDS


Material safety data sheet: SDS


Material safety data sheet: SDS

Poly(methyl methacrylate)

Material safety data sheet: SDS

Poly(n-butyl methacrylate)

Material safety data sheet: SDS


Material safety data sheet: SDS

Poly(t-butyl methacrylate)

Material safety data sheet: SDS

Poly(t-butyl acrylate)

Material safety data sheet: SDS

Poly(2-vinylpyridine) org.

Material safety data sheet: SDS

Poly(vinyl chloride)

Material Safety Data Sheet: SDS


Material safety data sheet: SDS

Poly(propylene glycol)

Material safety data sheet: SDS

Specialties / Particle Standards

Product Download
Random copolymers

A selection of random copolymers with different compositions.

Block copolymers

A large selection of block copolymers with different chemistries and compositions.

Deuterated polymers

A selection of deuterated polymers. Material safety data sheet: SDS

Functionalized polymers

Reference materials with specific end groups or without initiator. Material safety data sheet: SDS

Star polymers

A selection of star branched polymers with 3 arms.

Particle standards

Certified Particle Size Standards for particle sizing instruments  (Nanospheres and Microspheres), and Standards for particle counting instruments (EZY-CAL)

Polydispersity Index, PDI

The Polydispersity Index, PDI, is a measure of the width of the molar mass distribution. It is defined as ratio of the weight average molar mass Mw and the number average molar mass Mn, PDI =Mw/Mn.

PDI is 1 for monodisperse substances (no molar mass distribution), it is larger than 1 for the vast majority of all macromolecules. The PDI depends on the polymerization technique applied to produce the material. In praxis the PDI can be very large up to values of 100 and above. Narrow PDIs can only be obtained using controlled/living polymerization techniques.

Please refer to the literature section to learn more.

  • Narrow Standards
  • Broad Standards

Narrow polymer standards are made by controlled/living polymerization techniques (living anionic/cationic, ATRP, RAFT, etc.) or by fractionation of very broad standards.

All narrow standards have small polydispersity indices and exhibit a sharp and slim chromatographic profile.

The Mp value (molar mass at the peak maximum) is well defined and independent on the column resolution. As Mp is the only clearly defined point in the chromatogram this value is used to establish GPC/SEC calibration curves.

Standards with a narrow molar mass distribution are used:

  • to construct a GPC/SEC calibration curve using the provided Mp values
  • for the validation of a chromatographic system
  • for the determining of physical constants

Broad reference materials are made by radical polymerization, polycondensation or coordinative polymerization (polyolefins).

The PDI of broad standards is usually > 1.5. For broad standards the Mp value is a function of the column resolution. Molar mass values provided for broad standards are thus only the average molar masses Mw and Mn.

Modern GPC/SEC software packages allow for the construction of a calibration curve by the use of Mw, Mn or the intrinsic viscosity [η] of broad standards.

Standards with a broad molar mass distribution are used:

  • to validate a chromatographic system
  • to determine physical constants such as the Mark-Houwink constants K and ∝
  • to construct a calibration curve using broad calibration options
  • to test for porosity mismatch
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