Nanoptic 90 Plus
The Nanoptic 90 Plus (nanoparticle sizer) is an optical detection system newly designed to measure the particle size and size distribution of nanoparticles.
Measurement: Particle size and size distribution
Particle size range: 0.4 nm - 9 um
Testing speed: ≤ 5 minutes per test
Small quantity of sample required: 25 µl - 1 ml
Temperature control range: -10°C - 110°C ± 0.1°C
Scattering angle: 90°
Technology: Dynamic Light Scattering (DLS)
DLS Nanoparticle Size Analyzer with High Sensitivity
Nanoptic 90 Plus is a nano particle analyzer based on the DLS (Dynamic Light Scattering) theory. It can measure nanomaterial down to 0.4 nanometer. The measuring range of Nanoptic 90 Plus nanoparticle size analyzer is from 0.4 to 9000 nm. It is an ideal tool for particle size measurement of proteins, colloids, emulsions, CMPs, inkjet inks, and a variety of nanoparticles.
Features and Benefits
1) High-speed measurement capability:
Faster measurement speed; all results can be edited and processed later; a result could be achieved in 2 second for a fast scan.
2) High-performance laser:
High power, excellent stability, long life, less maintenance.
3) Intelligent intensity adjustment:
The software intelligently adjusts the intensity according to the signal-noise ratio.
4) Optical fiber detection system:
High sensitivity, effectively improved signal-noise ratio .
5) Intelligent signal judgment system:
Intelligently identifying signal quality and eliminating the effects of random events.
6) Extended temperature range:
Accurately controlled temperature ranged from -10°C - 110°C to meet the measurement requirements of the user.
7) Good stability :
Excellent repeatability of results; little requirement for regular maintenance.
8) Various algorithm:
Integrated with various algorithm and adjustable parameters covering scientific research requirements.
At Bettersize, we provide laser particle sizer, nanoparticle analyzer, nanoparticle size analysis, particle measuring services, etc. Bettersize is here to provide you the better particle size solutions, and beyond.