measure and modify colloidal stability - horiba · © 2012 horiba, ltd. all rights reserved....
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![Page 1: Measure and Modify Colloidal Stability - Horiba · © 2012 HORIBA, Ltd. All rights reserved. Colloid or Nanoparticle? Colloid: 1 nm – 1 µm Nanoparticle: 1 – 100 nm So a suspension](https://reader030.vdocument.in/reader030/viewer/2022041021/5ed0faa06fcab778432b4199/html5/thumbnails/1.jpg)
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Mark [email protected]
www.horiba.com/particle
Measure and Modify Colloidal StabilityFeaturing the SZ-100 Nanoparticle Analyzer
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Colloids DefinitionTwo phases: •Dispersed phase (particles) •Continuous phase (dispersion medium, solvent) May be solid, liquid, or gaseous Size range 1 nm – 1 micronHigh surface area creates unique properties
(suspension)
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Colloid or Nanoparticle?Colloid: 1 nm – 1 µmNanoparticle: 1 – 100 nm So a suspension of 50 nm gold particles in
water: colloid or nanoparticle? Both, mostly terminology Also hear “nanocolloid, nanoparticle
colloid…” (<100 nm)
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Nanoparticle or Not?
SSA = 6/D
50 nm
D from SEM ~50 nmD from SSA ~60-70 nmD from DLS ~250 nmSo: is this a nanoparticle?
ultrasound
Used ultrasound to disperseto primary particles or useweak acid to break bondsD from DLS ~50 nm
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Stability
Want stable dispersion
Either suspensions or emulsions
Suspensions sediment & flocculate
Emulsions phase separate, creaming or coalescence
good
bad
good
bad
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Measuring Stability
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Stabilization Steric stabilization: coat
surface with polymers Particles can’t touch so
they don’t interact
Electrostatic stabilization: alter surface chemistry to put charge on particle surface
Repel like magnets
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Zeta Potential
If surface has + charge, then - ions attracted to surface
+ ions attracted to – ions, builds electric double layer
Slipping plane: distance from particle surface where ions move with particle
ZP = potential (mV) at slipping plane
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Zeta Potential
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Stability Theory
Electrostatic Stability (DVLO) Approaching particles undergo two forces
Van der Waals attraction (Vvdw) Electrostatic repulsion (Ver)
Total energy = balance of two Vtotal = Vvdw + Ver
Steric Stability Approaching particles undergo two forces
Van der Waals attraction (Vvdw) Forces from adsorbed polymers (Vster)
Total energy = balance of two Vtotal = Vvdw + Vster
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Total Interaction Energy Curve: DVLO
Important parameters:
Secondary minimum• Flocculation• Reversible
Primary minimum• Coagulation• Permanent
Vvdw
Ver
Vtot
Distance between particles
Tota
l en
ergy
• 1/K Debye Length, double layer thickness: depends on concentration
• a particle size• surface charge• A Hamaker constant, nature of particle
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Zeta Potential: Measurement
Apply electric fieldMeasure particle
motionDirection tells + or – + particles move to – - particles move to +
Speed tells amplitudeGet speed from
frequency shift from motion of particles
distance
-measurement zone
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Zeta Potential Measurement
2sin2
EnU d
Mobility
)(・2・3
.
kafU
ζ
- +
ν0 ν0+νd
U
Zeta potential
Particle motion causes Doppler shiftFrequency mobilityMobility zeta potential
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Measurement Results
三回測定繰り返し再現性(マイナス位相側)
0
0.005
0.01
0.015
0.02
0.025
0.03
150 200 250 300 350 400 450
周波数 Hz
Inte
nsi
ty a
.u.
一回目
二回目
三回目
SZ-100 Other-41.1 mV -39.5 mV
●Polystyrene Polymer Micro spheres: 500nm (100ppm)
Average value of zeta potential from three times measurements
fd
1
2
3
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Measurement Details
First measure conductivityThen decide applied electric fieldAuto or manually
Reverse electric field to avoid polarization & electroosmosisTo avoid electroosmotic effect
near cell walls“Uzgiris” type cells avoid this
problem
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Zeta Potential Cells
-10
-5
0
5
10
15
20
0 2 4 6 8 10 12 14
pH
zeta
pot
entia
l
Gold coated electrodes (ruined) Carbon coated electrodes
IEP 3.4 nm protein 800 measurements with one cell
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Thin vs. Thick Double Layer
THICK DOUBLE LAYER
THIN DOUBLE LAYER Debye length
particle diameter
Smoluchowskia >> 1
Huckela = 1
Debye length = -1 EDL thickness
a << 1
a
a
)(・2・3
'
kafU
ζ
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SZ-100 Software
Default is Smoluchowski
Selection for Huckel
Or enter manually for other model
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Zeta Potential Predicts Stability
Different guidelines
+30 mV
0 mV
-30 mV
stable
stable
not stable
positive zp
negative zp
Sample Dependency
Oil/water emulsions > 10 mV Polymer latices > 15 mV Oxides > 30 mV Metal sols > 40 mV
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Zeta Potential: Emulsion Isoelectric Point (IEP)
Isoelectric point:pH where zetapotential = 0
Automate IEPstudies withauto titrator
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Emulsion IEP Study: Stability
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IEP of Some Materials
Another use of IEP is to characterize the surface of complex particles
TiO2 coated with alumina will have the IEP of alumina
alpha aluminium oxide Al2O3 8-9alpha iron (III) oxide (hematite) Fe2O3 8.4-8.5antimony(V) oxide Sb2O5 <0.4 to 1.9cerium(IV) oxide (ceria) CeO2 6.7-8.6chromium(III) oxide (chromia) Cr2O3 6.2-8.1copper(II) oxide CuO 9.5delta-MnO2 1.5, beta-MnO2 7.3[5]gamma aluminium oxide Al2O3 7-8gamma iron (III) oxide (maghemite) Fe2O3 3.3-6.7iron (II, III) oxide (magnetite) Fe3O4 6.5-6.8lanthanum(III) oxide La2O3 10lead(II) oxide PbO 10.7-11.6magnesium oxide (magnesia) MgO 9.8-12.7manganese(IV) oxide MnO2 4-5nickel(II) oxide NiO 9.9-11.3silicon carbide (alpha) SiC 2-3.5silicon dioxide (silica) SiO2 1.7-3.5silicon nitride Si3N4 6-7silicon nitride Si3N4 9tantalum(V) oxide, Ta2O5 2.7-3.0thallium(I) oxide Tl2O: 8tin(IV) oxide SnO2 4-5.5titanium(IV) oxide (rutile or anatase) TiO2 3.9-8.2tungsten(VI) oxide WO3 0.2-0.5vanadium(V) oxide (vanadia) V2O5 1 to 2yttrium(III) oxide (yttria) Y2O3 7.2-8.9zinc oxide ZnO 8.7-10.3zirconium(IV) oxide (zirconia) ZrO2 4-11
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Salt Concentration Effect
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Surfactant Concentration Effects
Surfactant concentration vs. pH, surfactant concentration v
Alter the surface chemistry – alter the zeta potential
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De-stabilization
Can also use zeta potential to study how to cause instability
Example: water treatment Add chemicals to IEP Particles flocculate Easier to filter
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Applications: Colloidal Gold
Stable base particleUsed in drug deliveryAttach proteins, DNA, etc. to surface
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Colloidal Gold: Drug Delivery
Colloidal Gold Modified with a Genetically Engineered Nitroreductase: Toward a Novel Enzyme Delivery System forCancer Prodrug TherapyVanessa V. Gwenin, Chris D. Gwenin, and Maher Kalaji Langmuir, 2011, 27 (23), pp 14300–14307
Particle size and zeta potential for colloidal gold base particles (average size 51 nm prior to modification) after immobilizing a prodrug activating enzyme onto the surface at different concentrations.
Data generated on SZ-100
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NIST Colloidal Gold
Technique Size nmAtomic Force Microscopy 8.5 ± 0.3Scanning Electron Microscopy 9.9 ± 0.1Transmission Electron Microscopy 8.9 ± 0.1Differential Mobility Analysis 11.3 ± 0.1Dynamic Light Scattering 13.5 ± 0.1Small-Angle X-ray Scattering 9.1 ± 1.8
Technique Size nmAtomic Force Microscopy 24.9 ± 1.1Scanning Electron Microscopy 26.9 ± 0.1Transmission Electron Microscopy27.6 ± 2.1Differential Mobility Analysis 28.4 ± 1.1Dynamic Light Scattering173º scattering angle 28.6 ± 0.9 90º scattering angle 26.5 ± 3.6Small-Angle X-ray Scattering 24.9 ± 1.2
Technique Size nmAtomic Force Microscopy 55.4 ± 0.3Scanning Electron Microscopy 54.9 ± 0.4Transmission Electron Microscopy 56.0 ± 0.5Differential Mobility Analysis 56.3 ± 1.5Dynamic Light Scattering173º scattering angle 56.6 ± 1.490º scattering angle 55.3 ± 8.3Small-Angle X-ray Scattering 53.2 ± 5.3
8011HORIBA Average St devSample 1 13.4 nm 1,8Sample 2 12.6nm 1,9ASTM Z ave st devCombined 15.8 nm 4,2
8012HORIBA Average St devSample 1 31.5nm 3,9Sample 2 32.4 nm 5,9ASTM Z ave st devCombined 31.2 nm 3,6
8013HORIBA Average St devSample 1 57.6 nm 3,5Sample 2 58.4 nm 3,9ASTM Z ave st devCombined 59.8 nm 5,0
SZ-100 Results
NIST Certificates
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Other Colloidal Metals
Colloidal silver copper platinum
number mean = 2.4 nm number mean = 9.6 nm number mean = 3.4 nm
palladium nickel germanium
number mean = 23.9 nm number mean = 4.2 nm number mean = 6.0 nm
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Colloidal Silica Possible reference
material for both size and zeta potential
Ludox TM size analyzed on both SZ-100 and LA-950
Ludox zeta potential can be used to verify zeta potential
IRMM has issued silica colloidal reference materials ERM-FD100 (20 nm) & ERM-FD304 (40 nm) w/zeta values
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New* ISO Standards
ISO/CD 13099-1 Methods for zeta potential determination — part 1: General Principle
ISO/CD 13099-2 Methods for zeta potential determination — part 2: Optical Methods
ISO/NWI 13099-3 Methods for zeta potential determination — part 3: Acoustic Methods
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ISO Guidelines: Dilution
Try to avoid dilutionDon’t dilute with DI waterNo ions, changes surface chemistry & ZP
Best: equilibrium dilution with same liquid as sample, but with no particlesUs supernatant after sedimentation or
centrifugationOtherwise, dilute with 0.01 M KCL
solution
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ISO Guidelines: Verification
No accepted standards, each vendor supplies reference samplesMeasure three times, mean value within
10% of published electrophoretic mobility valueRepeatability; CV <10%Note: expect most customers to use
zeta potential values If system is within 12%, don’t lose sleep
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Summary
Particle size, zeta potential, chemistry all related for colloidal suspensionsUse zeta potential as a predictive tool for
stabilityAlter surface chemistry, does zeta
potential improve?pH, salt, surfactant, etc.
IEP useful for both stability and surface definition
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Resources: www.horiba.com/particle
View application notes,webinars, etc.
Receive news of updates
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For More Details
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Contact us directly at [email protected]
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Danke
Gracias
Большое спасибо
GrazieاُشْكرΣας ευχαριστούμε
감사합니다 Obrigado
Tacka dig
谢谢ขอบคุณครบั
ありがとうございました
धन्यवादநன்ற