Others

Others

# Description Download
1

This application notes illustrates the success of the DAWN and miniDAWN instruments in characterizing very low molar mass (< 1000 g/ml) materials without reference to standards or empirical assumptions.

This application notes illustrates the success of the DAWN and miniDAWN instruments in characterizing very low molar mass (< 1000 g/ml) materials without reference to standards or empirical assumptions.
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Rapid Multi-Angle Light Scattering (RMALS) can be used to determine near real-time absolute molar masses of polymer and biopolymer samples without waiting for a sample to elute from a GPC/SEC column. RMALS is significantly faster than GPC/SEC and simplifies sample preparation since the sample concentration is determined on-line.

Rapid Multi-Angle Light Scattering (RMALS) can be used to determine near real-time absolute molar masses of polymer and biopolymer samples without waiting for a sample to elute from a GPC/SEC column. RMALS is significantly faster than GPC/SEC and simplifies sample preparation since the sample concentration is determined on-line.
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Failures of RALLS-The showdown between the performance of a Right Angle Light Scattering instrument and our MALS.

Failures of RALLS-The showdown between the performance of a Right Angle Light Scattering instrument and our MALS.
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Failures of Viscometry #1--Here's the proof that the miniDAWN is superior to on-line viscometers in detecting low molar mass materials!

Failures of Viscometry #1--Here's the proof that the miniDAWN is superior to on-line viscometers in detecting low molar mass materials!
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Hydrodynamic Radii of Quantum Dots Determined by Quasi Elastic Light Scattering (QELS)

Hydrodynamic Radii of Quantum Dots Determined by Quasi Elastic Light Scattering (QELS)
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Determination of size and shape of environmental particles

Determination of size and shape of environmental particles
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Nanoscale Aggregation Properties of Neuroprotective Carboxyfullerene

 Nanoscale Aggregation Properties of Neuroprotective Carboxyfullerene

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Wyatt Technology is the world leader in providing the most advanced macromolecular and nanoparticle characterization tools. These instruments and software may be used to determine the absolute molecular weight and or size of macromolecules and nanoparticles and include: multi-angle light scattering, dynamic light scattering, high through-put dynamic light scattering, field flow fractionation, refractive index and viscometry detection.