By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
A technique for observing and examining particles in liquids is called nanoparticle tracking analysis (NTA). Little particles (between 10 and 1000 nm) are suspended in a liquid using NTA, enabling the creation of a size distribution profile.
Nanotechnology is a vast area of study that focuses on materials and uses that take place at extremely small scales.To determine the size of individual particles and the size distribution range for a specific sample, a nano particle size analyzer is utilised.
Nanoparticle semiconductors are essential components for creating biosensors, which are widely used to detect analytes. The functionality and properties of semiconductor-based biosensors are determined by the surface potential of semiconductor nanoparticles.
Scratch-resistant eyewear, crack-resistant paint, anti-graffiti coatings for walls, transparent sunscreen, stain-repellent fabrics, self-cleaning windows, and ceramic coatings for solar cells are all products made with nanoparticles today.
The Global Nanoparticle Analyzer market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The ARC particle analyzer, a second-generation product from Spectradyne, was just released. The ARC from Spectradyne offers precise particle concentration, size, and single-particle, quantitative, fluorescence-based phenotyping for the analysis of biological nanoparticles in complicated materials.
Spectradyne’s mission is to improve the efficacy and safety of nanomaterials through better metrology. Spectradyne’s technology leverages microfluidics and advanced electrical sensing techniques to measure particle concentration and size with unprecedented accuracy, requiring only a tiny fraction of the sample needed by other methods.
Using Spectradyne’s Arc, precisely measure particle sub-populations in complicated samples in a matter of minutes.
The ARC particle analyzer utilises the well-proven advantages of microfluidic resistive pulse sensing (MRPS) to assess size and absolute concentration while concurrently measuring single-particle fluorescence in up to three optical channels.
The outcome: Target population quantification in the most difficult biological samples with speed and accuracy. Spectradyne’s Arc measures the size of each particle in your formulation and detects the fluorescent signal using microfluidic technology coupled with fluorescent imaging.
As each particle moves through a nanoconstriction, this special combination produces phenotyping and electrically based particle sizing, allowing you to determine the type of particle as well as its size and concentration.
