DLS PARTICLE SIZE ANALYZER

Vasco Kin

Boost precision with the VASCO KIN particle size analyzer. Measure particle size and particle size distribution in situ using our remote, contactless optical head to avoid disturbing or contaminating samples. Plus, streamline inline and online monitoring with VASCO KIN’s real-time, time-resolved DLS nanoparticle size measurement.

Vasco Kin

Watch why VASCO KIN is the best DLS particle size analyzer.

DLS PARTICLE SIZE ANALYZER

Key Features & Benefits

Faster in situ, contactless particle size measurement

No need to batch colloids. VASCO KIN’s remote optical head allows you to measure particle size and size distribution in any transparent container. This enhances inline monitoring efficiency, saves time, preserves samples, minimizes sample contamination risks, and more.

Time-resolved, real-time particle analyzer

VASCO KIN offers effortless, high-resolution, time-resolved kinetic analysis, which enables the study of nanoparticle synthesis, agglomeration, and suspension stability. You can also obtain a correlogram every 200 ms and review a 2D color map of particle size distribution for in-depth insights.

Easy and reliable inline monitoring

VASCO KIN integrates seamlessly into your continuous flow manufacturing processes. This boosts efficiency, reduces bottlenecks, and empowers faster throughput with greater quality control. Our lightweight remote optical head is portable and works on-site.

Intuitive instrument coupling

VASCO KIN is highly compatible with other instrumentation for multiple interdependent analyses. You can also measure particle sizes in various containers, like a syringe, a sealed vial, or a synthesis reactor.

Flexibility with a variety of optical heads

Measure particles ranging from 0.5 nm to 10 µm with the VASCO KIN DLS particle size analyzer. Various optical head options allow you to measure in diverse sample arrangements: in situ, in line, in cuvette, across different mediums (organic and aqueous environments), and concentrations (up to 40% wt). This versatility allows you to measure a wide range of samples, from macromolecules to emulsions or microdroplets.

Specifications

Measurement principle: Optical Fiber Dynamic Light Scattering (DLS)
Scattering angle: 170°, customable
Particle size range: 0.5 nm – 10 µm (sample dependent)
Molecular weight range: 0.9 kDa – 20 MDa ±5%
Software: Nano Kin
Key measurements: Particle size, molecular weight

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Featured Papers

Microfluidic in-line dynamic light scattering with a commercial fibre optic system

We report the coupling of dynamic light scattering (DLS) in microfluidics, using a contact-free fibre-optic system, enabling the under-flow characterisation of a range of solutions, dispersions, and structured fluids.

In situ monitoring of block copolymer self-assembly through controlled dialysis with light and neutron scattering detection

Solution self-assembly of amphiphilic block copolymers (BCs) is typically performed by solvent to water exchange. However, BC assemblies are often trapped in metastable states depending on the mixing conditions, such as the magni-tude and rate of water addition.

Twofold advantage of gas bubbling for the advanced solvothermal preparation of efficient YAG:Ce nanophosphorsunder high pressure (~100 bars)

With the goal of controlling the oxidation state of cerium ions in Ce-doped Y3Al5O12 nanocrystals (YAG:Ce), different gases (Ar/H2, O2, Ar) were bubbled inside the solution of precursors and solvent prior to the solvothermal synthesis…..

Thermosensitive polymer-grafted iron oxide nanoparticles studied by in situ dynamic light backscattering under magnetic hyperthermia

Thermometry at the nanoscale is an emerging area fostered by intensive research on nanoparticles (NPs) that are capable of converting electromagnetic waves into heat. Recent results suggest that stationary gradients can be maintained between the surface of NPs and the bulk solvent, a phenomenon sometimes referred to as ‘cold hyperthermia’.

Colloidal stability of molten salt –based nanofluids: Dynamic Light Scattering tests at high temperature conditions

The use of molten salt-based nanofluids as heat transfer fluids or thermal energy storage materials to increase the efficiency of Concentrated Solar Power plants has gained attention due to the use of the renewable energies against Global Warming. One of the issues of interest is the colloidal stability of the nanoparticles dispersed in ionic media like molten salts…

Design of concentrated colloidal dispersions of iron oxide nanoparticles in ionic liquids: Structure and thermal stability from 25 to 200 C

Some of the most promising fields of application of ionic liquid-based colloids imply elevated temperatures. Their careful design and analysis is therefore essential. We assume that tuning the structure of the nanoparticle-ionic liquid interface through its composition can ensure colloidal stability for a wide temperature range, from room temperature up to 200 °C.

Experience VASCO KIN with a Free Sample Analysis

Let Vasco Kin reveal the unseen dimensions of your colloidal suspensions. Submit your samples for a complimentary analysis and see the precision of Vasco Kin for yourself.

Lifetime Customer Support

Vasco Kin isn’t just an instrument; it’s a commitment to your research’s future. Benefit from our lifetime customer support, ensuring your Vasco Kin continues to drive innovation in your projects.

Get Your Custom Quote

Elevate your research with the Vasco Kin. Request your quote today and step into the next dimension of nanoparticle analysis.

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Witness the transformational impact of Vasco Kin on nanoparticle characterization.

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With a single and continuous measurement, VASCO KIN™ gives you access to all characterization data of your reaction (size distribution evolution over time).