Self-Assembly of Colloidal Particlesweb.nchu.edu.tw/~hyang/courses/che6842/8th_Week_Lecture.pdf ·...
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Self-Assembly of Colloidal Particles
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Representative Colloidal Systems
(Adv. Mater. 12, 693, 2000)
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Examples of Colloidal Dispersions
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Emulsion Polymerization Preparation of Monodisperse Polymer Latex Colloids
Polystyrene Emulsion Polymerization Process
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Synthesis of Monodisperse Silica Microspheres – Stober Process
Hydrolysis:
Condensation:
Diameter Control Size (nm) TEOS (M) H2O (M) NH3 (M)
275 0.3 5.0 0.5
750 0.3 10.0 2.0
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Origin of Surface Charge - ζ Potential
SO42-
Polystyrene Silica
OH
Polymer chains are entangled and each chain starts and ends with a charged group, which can dissociate in water to provide an electrostatic charge Z*e
Three-dimensional (SiO2)n network of Stober silica
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Solution pH Determines Particle ζ-Potential
ζ-potential of polystyrene and other latex particles are pH independent, while that of silica is highly pH dependent.
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Electrostatic (Repulsive) Force & Electric Double-Layer
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Commercial Monodisperse Colloidal Particle
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Photonic Crystals: Periodic Surprises in Electromagnetism
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Photonic Crystals
Photonic crystals are periodic dielectric materials.
1-D 2-D 3-D
ε1 ε2ε1 ε2 ε1 ε1 ε2 ε1 ε2 ε1 ε1 ε2 ε1 ε2 ε1
(J.D. Joannopoulos et al., Photonic Crystals: Modeling the Flow of Light, 1995)
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Fabrication of 3D Photonic Crystals
Top-Down Lithography Bottom-Up Assembly
(M. Qi et al., Nature 429, 538, 2004) (http://aussie-opal.com/lr2mulbl.jpg)
Highly Ordered
3-D
30-2000 nm
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Colloidal Epitaxy for Colloidal Single Crystals
• Slow deposition of colloidal particles onto a patterned substrate can direct the crystallization of bulk colloidal single crystals.
• Confocal microscopy reveals real-space structure of fluorescent particles.
(A. van Blaaderen et al., Nature 385, 321, 1997)
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Physical Confinement Induced Crystallization
• A large variety of colloidal particles, including silica, polymer latex, titania, AgSe, Se have been assembled using the physical confinement method.
• Patterned relief structures on substrate lead to assemblies of colloidal particles with different surface topologies.
(Adv. Mater. 10, 1028, 1998)
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Vertical Convective Self-Assembly
Glass slide
Glass vial
Silica/ethanol dispersion
From left to right: 310 nm, 350 nm, 380 nm silica spheres.
5 mm
• Substrate: glass, Si. • Substrate shapes: planar, curved. • Colloids: silica, latex. • Crystal size: centimeters. • Crystallization time: days.
(Chem. Mater. 12, 1431, 1999)
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Planar Colloidal Single Crystals
• Single-crystalline ordering over centimeter scale. • Method provides thick (~ 100 μm) films.
2 μm
80 ± 5 layers
5 μm
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Crystal Thickness & Particle Conc.
5 μm
Lower Particle volume fraction --- 10 layers
Higher Particle volume fraction --- 50 layers
5 μm
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Crystal Thickness & Particle Size
2 μm 2 μm
Particle size = 200 nm --- 14 layers
Particle size = 400 nm --- 7 layers
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Good Agreement of Data and Theory Using Film Formation Model
φ = 1.0% d = 300 nm
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Extending the Size Range of Particles Using Convective Self-Assembly
Convection induced by a temperature gradient keeps sedimenting large particles suspended in the dispersion during the convective self-assembly process.
(J. Am. Chem. Soc. 125, 15589, 2003)
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5 m
The six-arm star is caused by Bragg’s diffraction of visible light.
The particle spacing and crystal thickness are controllable.
10 m 1 m
1.41D
Jiang, P. et al, J. Amer. Chem. Soc. (2004) 21
2 cm
320 nm silica particles
Colloidal Crystals by Spin-Coating
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2 cm
320 nm silica particles • Shear force causes the formation of hexagonal close-packed layers.
• Normal pressure created by material spin-off and polymerization squeeze hcp layers into each other to form ncp structures.
Jiang, P., Chemical Communications (2005) 22
Pressure
Spin-coating & Polymerization
Shear aligned hcp layers Non-close-packed crystal
Spin-Coating Mechansim
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Yang, H. et al, Langmuir (2013)
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Bragg’s Law
n - Refractive Index d - Inter-Plane Distance
dnavg2max
Jiang, P. et al, Chem Mater (1999)
Colloidal Crystals on Polymer
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Minimal Volume Fraction Achieved by Spin Coating
Close-packing (1, 0.74)
Spin-coated ( , 0.523)
Simple Cubic Unit Cell
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Compatible With Standard Microfabrication
Lithography UV
Acetone Wash
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Nature is the Ultimate Nanotechnologist Antireflection Coatings
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Bat / Dolphine Biosonar
Bats and dolphins seek out prey by emitting ultrasonic waves And echoes to determine where the prey is.
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28 Moth
Moth-Eye Structures
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Optimum Refractive Index Value
Reflection Coefficient
Antireflection Coating Applications
Antiglare Coatings
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Artifactual Antireflection Coatings