NANOSIGHT LM20

NanoSight Ltd announces the launch of NANOSIGHT LM20.

The NANOSIGHT LM20 is a robust and low cost nanoparticle characterisation system that enables highly accurate visualisation of individual nanoscale particles in suspension.

The system uniquely allows the user a simple and direct qualitative view of the sample under analysis from which independent quantitative estimation of particle size and size distribution can be immediately obtained. The NANOSIGHT System builds on the ground-breaking work of NanoSightnulls HALO system.

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NANOSIGHT LM20 System Specification Sheet

NanoSight: Solutions for Nanoscale Analysis

NanoSight supply unique instruments for particle analysis in the submicron region.

NanoSight systems provide knowledge critical to researchers in nanotechnology, to product developers and to quality assurance professionals across a broad range of industries.

Unique information comes from assessment of individual nano particles, rather than averaging over a bulk sample. This provides a distinct advantage in determining particle size.

This technique is Nanoparticle Tracking Analysis (NTA). More information on NTA: Technology, Software and Results

Wide Ranging Applications

The NANOSIGHT System is proven on a wide range of applications:

Most hard nano-particles

Virus samples

Pigments in inks and paints

Single DNA molecules

Metal oxides in magnetic storage media

Precursor chemicals for wafer fabrication

Multi-walled Carbon nanotubes

Fuel additives

Cosmetics and personal care products

Foodstuffs

Ceramics

Ferritin molecules

Polymers, emulsions and colloids

Contact us if your nano-particle does not appear here: applications are developing rapidly.

The NanoSight NTA Advantage

Nanoparticle Tracking Analysis (NTA) directly and individually detects, in real time, particles as small as 15nm in liquid.

Provides a comprehensive particle size analysis based on measuring individual particles

Unique ability to visualize particles allows poly-dispersed samples and samples with low number of contaminant particles to be accurately analyzed. This overcomes the inherent problems associated with ensemble analysis techniques.

Samples do not need pretreatment (e.g. labeling - but also works with fluorescent labels)

Viewing of dynamic interactions in real time between individual particles in their natural solvated environment

Low cost and rapid results.