Wyatt Technology

DynaPro Plate Reader III Summary Landing Page

Dynapro Plate Reader

Speed up size and stability screening with high-throughput dynamic light scattering

Revolutionize your biotherapeutic and nanoparticle development with high- throughput dynamic light scattering (HT-DLS) and the automated DynaPro® Plate Reader III. The DynaPro excels at high-throughput sizing and screening of biopharmaceutical and nanoparticle formulations to enable novel workflows that simply would not be possible with other DLS instruments.

Dynapro Plate Reader

 

Automated All-in-One

Dynapro Plate Reader Properties

The DynaPro® Plate Reader III
offers a complete solution in a standard well plate

  • Discover small-molecule and peptide drugs
  • Develop stable biopharmaceuticals
  • Formulate nanoparticles
  • Optimize protein buffers

Obtain the Complete Attribute Landscape

  • Size and size distributions (rh)
  • Molar mass (Mw)
  • Aggregation and stability indicators (Tonset, Tm, Tagg, kD, A2)
  • Viscosity
  • Solubility

Fast, Easy, Accurate

  • Uses industry-standard 96, 384 or 1,536 microwell plates
  • Sample volume as low as 4 μL
  • User friendly experiment design in Dynamics
  • As sensitive as a cuvette-based DLS
  • First and only A2 and Mw in a plate
  • Film- or oil-based evaporation seal
  • Measure from 4º to 85ºC
  • Infrared wavelength not susceptible to fluorescence
  • 21 CFR Part 11 compliant software
Download Brochure btn
Learn More btn
REquest Product Quote btn

 

Design High-throughput Experiments

Experiement Builder

 

Advantages

Explore content-rich screening data and tackle comprehensive DLS experiments you never thought possible.

Aggregation Graph Landscape

 

Weeks of Experiments in Just Hours

Biologics: Thermal and Colloidal Stability

The DynaPro Plate Reader III performs high-throughput screening of biotherapeutic candidates, to determine multiple properties of a plateful of candidates and formulations. Shown to the right is the analysis of monoclonal antibodies (mAbs) for thermal stability.

Learn More btn