Introduction to Laser Diffraction
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Transcript of Introduction to Laser Diffraction
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Introduction to Laser DiffractionFundamental Principles and Everyday Uses
Ian [email protected]/us/particle
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How does it work?
What can diffraction do?
How does it help you?
Strong points, weak spots
Q&A
Plan of Attack
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Core Principle
Can investigate a particle with light and derive its size
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Core Principle
Why? Because the angle and intensity of the scattered light depends on its size
Larger Particle Smaller Particle
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Core Principle
So all we need is a light source, a particle, light detectors, and a German mathematician
or
…but this guy has a better solution
Joseph von Fraunhofer Gustav Mie
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Diffraction
Refraction
Reflection
Absorption
ReflectedRefracted
Absorbed and
Reradiated
Diffracted
Four Types of Interaction
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Edge Diffraction
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Diffraction Patterns
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Why a “pattern”?
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Single slit diffraction pattern Double slit diffraction pattern
Double Slit = Single Slit
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Light Scatter occurs whether from a slit, a pinhole or a particle. It occurs at
the edge of an object. A SLIT and PARTICLE of the same size produce
the same diffraction pattern θ
θ
θ
A “particle” in disguise
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Large particles scatter light through SMALLER angles
θ Small particles scatter light through LARGER angles
θLarge ParticleSmall Particle
Size affects angle
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LARGE PARTICLE:Low angle scatterLarge signal
SMALL PARTICLE:High Angle ScatterSmall Signal
Wide Pattern - Low intensity
Narrow Pattern - High intensity
Size affects intensity
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Other factors
Size, Shape, and Optical Properties also affect the angle and intensity of scattered lightExtremely difficult to extract shape information without a priori knowledge
Assume hard sphere modelOptical properties (refractive index) explain refraction
Key difference between Fraunhofer and Mie
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How does it work?
What can diffraction do?
How does it help you?
Strong points, weak spots
Q&A
Plan of Attack
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Most flexible size analysis
The core relationship between size and scattered light works for:
Nanoparticles
Small micronized particles
Large micronized particles
Wide dynamic size range
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The core relationship between size and scattered light works for:
Suspensions – solid-liquid
Powders – solid-gas
Emulsions – liquid-liquid
Flexible sample types
Most flexible size analysis
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Most flexible sizing
Wide dynamic size rangeMultiple sample typesNo a priori information needed to monitor size changeAccuracy is improved with refractive index (when smaller than approx. 30 microns)Very fast measurement think seconds, not minutesEasy to use, easy to interpretFirst principal measurement no calibration
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30, 40, 50, 70 nm latex standards
Nanoparticle Sensitivity
Laser diffraction can measure 30 nm!Typical setup is 2 light sources: red & blue
30 nm colloidal silica
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Some (unfounded?) concernswith particles < 100 nm
Diffraction good at determining sub-100 nm particles in presence of larger particles
Software set to display % underany given size
Data shown left is for skin creamand TiO2 suspension
Nanoparticle Sensitivity
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q(
%)
Diameter(µm)
0
14
2
4
6
8
10
12
10.00 3000100.0 1000 0
100
10
20
30
40
50
60
70
80
90
Coffee Results
Large Particle Sensitivity
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10 ml 35 ml 200 ml powders
•Wide range of sample cells depending on application•High sensitivity keeps sample requirements at minimum•Technology has advanced to remove trade-offs
Flexible Sample Handlers
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How does it work?
What can diffraction do?
How does it help you?
Strong points, weak spots
Q&A
Plan of Attack
![Page 24: Introduction to Laser Diffraction](https://reader034.fdocuments.in/reader034/viewer/2022052301/55626d03d8b42ae87d8b565d/html5/thumbnails/24.jpg)
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•Black size distribution is internal standard •Red result is considered a passing batch•Blue result is a bad batch•Highlights problem in production•All accomplished with complex product formulation
Monitor Process Quality
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•Product quality and performance can be located at tails•Diffraction is “resolution limited” technique, but can stillhave success finding outlier populations
Monitor Product Quality
Median (Peak 1) : 0.031 μmMedian (Peak 2) : 1.75 μm
0.05wt%
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Colloidal Silica (weak scatterer)Median (D50): 35 nmSample Amount: 132 mg
Magnesium StearateMedian (D50): 9.33 μmSample Amount: 0.165 mg
Bio-degradable PolymerMedian (D50): 114 μmSample Amount: 1.29 mg
Minimize Sample (MiniFlow)
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Measurement Workflow
Prepare the sampleGood sampling and dispersion a must!May need to use surfactant or admixture
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Measurement Workflow
Prepare the systemAlign laser to maximize signal-to-noiseAcquire blank/background to reduce noise
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Measurement WorkflowIntroduce sample
Add sample to specific concentration rangePump sample through measurement zoneFinal dispersion (ultrasonic)
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Measurement Workflow
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Measurement Workflow
MeasurementClick “Measure” button
– Hardware measures scattered light distribution– Software then calculates size distribution
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Iterative Calculation
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LA-950 Method Expert
There are four important tests…
CirculationConcentration
DispersionDuration
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There are two important tests…
Real RIImaginary RI
LA-950 Method Expert
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Why is the test important?What does the test do?How will the results be displayed?What is the best value?
User selects up to 5 values for testing
LA-950 Method Expert
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Method Expert guides user to prepare the LA-950 for each test
Results displayed in multiple formats: PSD, D50, R-parameter
LA-950 Method Expert
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LA-950 Method Expert
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LA-950 Method Expert
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How does it work?
What can diffraction do?
How does it help you?
Strong points, weak spots
Q&A
Plan of Attack
![Page 40: Introduction to Laser Diffraction](https://reader034.fdocuments.in/reader034/viewer/2022052301/55626d03d8b42ae87d8b565d/html5/thumbnails/40.jpg)
© 2011 HORIBA, Ltd. All rights reserved.
Diffraction Drawbacks
Assumes hard spherical modelMost materials are asphericalError is introducedData cannot be directly compared to other techniques measuring different property
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“Optical” concentration rangeDilution can cause stability issuesEspecially difficult for creams and pastes
Diffraction Drawbacks
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Volume basis by defaultAlthough excellent for mass balancing, cannot calculate number basis without significant error
VolumeArea
Number
Diffraction Drawbacks
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The BenefitsWide size range
Most advanced analyzer measures from 30 nano to 3 milliFlexible sample handlers
Powders, suspensions, emulsions, pastes, creamsVery fast
Allows for high throughput, 100’s of samples/dayEasy to use
Many instruments are highly automated with self-guided software
Good design = Excellent precisionReduces unnecessary investigation/downtime
First principle measurementNo calibration necessary
Massive global establishment
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How does it work?
What can diffraction do?
How does it help you?
Strong points, weak spots
Q&A
Plan of Attack
![Page 45: Introduction to Laser Diffraction](https://reader034.fdocuments.in/reader034/viewer/2022052301/55626d03d8b42ae87d8b565d/html5/thumbnails/45.jpg)
© 2011 HORIBA, Ltd. All rights reserved.
For More InformationISO 13320:2009 – the go-to guidance resourceParticle Size Measurements; Fundamentals, Practice, Quality by Henk Merkus
Visit www.horiba.com/us/particlePreviously recorded webinars:
-- Laser Diffraction Performance-- LA-950 Method Expert Software-- Understanding and Interpreting Your PSA Results-- Setting Attainable Size Specifications-- “Boot Camp” Laser Diffraction 6-part Training Course
Many application and technical notes
Ask a question at [email protected]
Keep reading the monthly HORIBA Particle e-mail newsletter!
Visit the Download Center to find the video and slides from this webinar.