Bettersize
BeSEC

Molecular Weight Analyser

  • Measure the absolute molecular weight
  • Dual-angle light scattering detector
  • Molecular weight range: 1 kDa to 2 GDa

Download
brochure    Request
quote

Beckman Coulter LS 13 320 XR Laser Diffraction Particle Size Analyser 21 CFR Part 11

A dual-angle light scattering detector that can be used to measure the absolute molecular weight of proteins, synthetic polymers, and natural polymers, as well as molecular size in terms of radius of gyration (Rg).

  • Proteins: Determine molecular weight, oligomer state, and aggregates
  • Polymers & Polysaccharides: Analyze molecular weight distribution and size
  • No column calibration required since Mw is independent of elution volume
  • Low-angle detection enables accurate molecular weight
  • Compatible with any GPC or SEC system

Step into the future of chromatography with the BeSEC Series. Designed as a next-generation light scattering detector, the BeSEC transforms conventional SEC/GPC workflows into powerful platforms for absolute molecular weight analysis.

Unlike traditional methods that rely on retention time, the BeSEC delivers first-principles data, ensuring unmatched accuracy for researchers in biopharmaceuticals, advanced polymer science, and food chemistry— accelerating the path from discovery to market.

  • Key Features and Benefits

    Key Features
    • Detection angles: 7° and 90°
    • Molecular weight range: 1 kDa to 2 GDa
    • Supports radius of gyration Rg > 12 nm
    • Homopolymer and protein modes
    • Acquires RI, UV, and start signals
    • Intuitive software with real-time analysis
    • 18 μL flow cell reduces band broadening
    Benefits
    • Proteins: Determine molecular weight, oligomer state, and aggregates
    • Ppolymers and polysaccharides: Analyze molecular weight distribution and size
    • No column calibration required since Mw is independent of elution volume
    • Low-angle detection enables accurate molecular weight
    • Compatible with any SEC or GPC system

  • Technical Specs

    Technology

    BeSEC LS1: 1 kDa to 20 MDa* BeSEC LS2: 1 kDa to 2 GDa*
    Rg

    BeSEC LS1: N/A BeSEC LS2: > 12 nm*
    Detection Angle

    BeSEC LS1: RALS (90°) BeSEC LS2: LALS (7°) and RALS (90°)
    Laser Source Type

    Diode Laser
    Laser Power

    10 mW
    Laser Wavelength

    640 nm
    Sample Cell Volume

    18 µL
    Acquisition Rate

    5 Hz
    Dynamic Range

    +/- 2500 mV
    Connection to PC

    USB
    Measurement Modes

    Homopolymer mode, protein mode
    Output Results

    BeSEC LS1: Mn, Mw, Mz, Mp, Pd, dn/dc, Concentration, Mw distribution
    BeSEC LS2: Mn, Mw, Mz, Mp, Pd, dn/dc, Concentration, Mw distribution, Rg
    Analog Outputs

    RI, UV and start signals
    Solvent Compatibility

    Aqueous and organic solvents
    Wetted Parts

    PTFE, PEEK, glass, stainless steel
    Power Supply

    AC 100-240 V, 50-60 Hz, 4.0 A
    Dimensions

    450 × 325 × 157 mm (= 17.7″ × 12.8″ × 6.2″)
    Weight

    11 kg (= 24.2 lbs)

  • Technology

    Determining Absolute Molecular Weight

    with the Light Scattering Detector

    In size exclusion chromatography (SEC), separation depends only on the hydrodynamic size of the molecules. Larger molecules are unable to penetrate the pores of the stationary phase and elute earlier, while smaller molecules enter the pores and elute later. The separation mechanism is purely physical, and no chemical or adsorptive interactions occur between the solute and the stationary phase.

    Breaking Free from Column Calibration

    How the BeSEC Improves SEC/GPC Workflows

    Traditional SEC/GPC systems without light scattering detection provide only relative molecular weight

    These systems require calibration with a series of polymer standards to create a calibration curve of molecular weight versus retention volume.

    Conventional methods that rely on retention volume introduce significant bias

    Polymers with similar hydrodynamic size can elute at the same time yet differ greatly in molecular weight due to structural variations. Without light scattering detection, these differences remain hidden, making it impossible for traditional SEC or GPC to accurately distinguish between such samples.

  • Applications

    Assess PET grade

    Determine Lentinan MW

Not sure if it’s the right instrument?

No worries, send us a sample and we will test it for you

Send a sample
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer
  • Morbi ornare magna nec tortor rutrum interdum. Donec interdum facilisis elit, et iaculis nunc facilisis vitae. Sed quis semper dolor, id efficitur ex.
    Name of customer