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Contamination Monitoring Blog
december 18, 2020 06:51 PM

Ultrapure Water Nanoparticle Contamination Monitoring

Written by PMS

Engineering Optical Particle Counters for Smaller Particle Sizes

In order to count nanoparticles, the technology behind ultrapure water particle counters had to be improved. In this blog series, we look at the signal pathway of a typical counter and the areas of optimization and groundbreaking engineering.

How do liquid particle counters work?

https://www.pmeasuring.com/wp-content/uploads/2020/12/How-Liquid-PCs-Work.mp4

The basic anatomy of a liquid particle counter is shown above. Let’s look at what’s happening step by step:

  1. At first, clean sample fluid flows through the glass capillary. There are no measurable particles, and the laser, focused through the glass capillary, remains a single, fixed beam.
  2. When particles pass through the beam, they scatter the light in a phenomenon known as Rayleigh scattering. This same phenomenon explains how sunlight reflecting off the tiny molecules that make up our atmosphere produce visible color changes throughout the day. In a liquid particle counter, mirrors or lenses capture the light scatter and deliver it to a device sensitive to subtle changes in light (i.e., a photodetector).
  3. The photodetector converts the scattered light into a measurable electrical signal. Software translates the signal into particle size data. (Big particles produce big signals. Small particles produce small signals.)
  4. The signal in millivolts becomes equivalent to the height or y-axis value of the graphical representation of data.
  5. Based on the y-axis value, particles are “binned” or sorted into a choice of size channels, such as 0.5 µm, 1 µm or 5 µm, etc., depending on the particle counter.

What’s creating the signal?

The intensity of the light scattered by a particle is proportional to the diameter of the particle to the sixth power (d6) when particles are smaller than the wavelength of visible light (averaging 500 nm or 0.5 µm).  The electrical signal of the photodetector becomes much smaller as the particle size decreases. For example, a 20 nm particle scatters one million times less light than a 200 nm particle. Even the difference in detection capability between 30 nm and 20 nm requires greater than 10 times the improvement in signal and noise sensitivity. In other words, detecting small particles requires some specialized tools!

Nanoparticle Counter Signal Sensitivity and Noise

When we listen to music on systems from just fifty years ago, we can perceive a difference in sound clarity. A signal, whether it’s from a light source reaching a photodetector or the hit of a tambourine entering a microphone, is always accompanied by some noise. This noise is the primary limitation of optical particle counters.

how-to-improve-liquid-particle-counters-for-nanoparticles

The above image shows 20 nm calibration spheres passing through an ultrapure water particle counter. The reading with the highest peak is the particle signal. To the left and right, you can see noise of a relatively fixed height. Ensuring the particle signal and the noise can be told apart with no mistakes is key to increasing the range of measurable particle sizes.

Note: A particle’s refractive index also plays a role in how well its signal is read. The same technology can also see many metallic particles 10 nm and less. Why? Because they refract light to a greater extent than other materials.

The PMS-Intel Collaboration to Improve Liquid Nanoparticle Counters

liquid particle counter Ultra DI 20 by Particle Measuring Systems PMSParticle Measuring Systems has been working with Intel for many years developing new technology to improve the capabilities of optical particle counters for fab implementation. Together, they collaborated on improving signal and noise readings of liquid particle counters for nanoparticle contamination in ultrapure water. The cleaner the fluid, the higher the difficulty in matching results between different counters at different stages of filtration. Their combined efforts pushed the boundaries of quality established by prior generations of particle counters for liquids.

In our next blog in this series, we will examine the filter studies performed at Intel and share how their results demonstrated the improvements made to nano-scale particle counting. You can learn more by watching this 2020 Ultrapure Micro event presentation.

 

Do you want more information on a 20 nm ultrapure particle counter? Particle Measuring Systems is only manufacturer only to reliably provide 20 nm particle monitoring for ultrapure water and chemicals.

Learn about the Ultra DI 20 liquid particle counter. 

Filed Under: EL, Liquids Tagged With: dan rodier, di water, intel, liquid particle counting, nanocontamination, nanoparticle counting, Ultra DI 20, ultrapure micro, ultrapure water, upw

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