maxwell-wagner effectthe-dielectric-society.org/sites/default/files/bds2018 tut niss.pdf ·...
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Maxwell-Wagner EffectCase: Crystallization kinetics
Kristine Niss
Glass and Time, IMFUFA,Department of Science and EnvironmentRoskilde University
BDS, August 2018, Brussels
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Dielectric Properties of Inhomogeneous MediaCase: Crystallization kinetics
Kristine Niss
Glass and Time, IMFUFA,Department of Science and EnvironmentRoskilde University
BDS, August 2018, Brussels
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People and background
Crystallization of n-butanolMikkel Hartmann Jensen, RUCTina Hecksher, RUCChristiane Alba-Simionesco,LLB, Paris
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People and background
It looks like a Maxwell-Wagner effect
Ranko Richert,Arizona State University
Crystallization of n-butanolMikkel Hartmann Jensen, RUCTina Hecksher, RUCChristiane Alba-Simionesco,LLB, Paris
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People and background
Crystallization of n-butanolMikkel Hartmann Jensen, RUCTina Hecksher, RUCChristiane Alba-Simionesco,LLB, ParisJCP, 143, 134501 (2015)
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People and background
Crystallization of n-butanolMikkel Hartmann Jensen, RUCTina Hecksher, RUCChristiane Alba-Simionesco,LLB, ParisJCP, 143, 134501 (2015)
Crystallization of glycerolAlejandro Sanz, RUCJCP, 146, 044502 (2017)Cryst. Growth & Design, 17, 4628 (2017)
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Outline
Maxwell-Wagner-SillarsIntroductionSimple layered structureGeneral layered structureParticles dispersed in a mediumGeneral considerations
Crystallization studied by dielectricsn-butanolGlycerol
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Dielectric spectroscopy
~ +
-
U = Z I Q = CU
I =dQdt
= CdUdt
= CiωU
U = U0eiωt
Z = 1iωC
C = 1iωZ
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Dielectric spectroscopy
~ +
-
U = Z I Q = CU
I =dQdt
= CdUdt
= CiωU
U = U0eiωt
Z = 1iωC
C = 1iωZ
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Dielectric spectroscopy
~ +
-
+ - + - + -
+ -
+ -+ -+ -+
-
+ -
+ -
+ -+ -
+ - + -
+ -+ -
p1
p2p3
U = Z I Q = CU
I =dQdt
= CdUdt
= CiωU
U = U0eiωt
Z = 1iωC
C = 1iωZ
V#»
P =∑N
i=1#»p i
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Dielectric spectroscopy
~ +
-+ -
+ -
+ -
+ -
+ -
+ -
+ -+ -
+ -
+ -
+ -
+ -+
- + -
+ -
+ -
E
p1
p2p3
U = Z I Q = CU
I =dQdt
= CdUdt
= CiωU
U = U0eiωt
Z = 1iωC
C = 1iωZ
V#»
P =∑N
i=1#»p i
#»
P = ε0χ#»
E
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Dielectric spectroscopy
~ +
-+ -
+ -
+ -
+ -
+ -
+ -
+ -+ -
+ -
+ -
+ -
+ -+
- + -
+ -
+ -
E
p1
p2p3
U = Z I Q = CU
I =dQdt
= CdUdt
= CiωU
U = U0eiωt
Z = 1iωC
C = 1iωZ
V#»
P =∑N
i=1#»p i
#»
P = ε0χ#»
E
C = (χ + 1)Cempty = εCempty
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Non-additive
We measure a macroscopic property of acapacitor. We want to know something aboutwhat the molecules are doing. If the materialis inhomogeneous - then the spectra can bechanged or distorted. In general we do nothave additivity
εcomp 6= φ1ε1 + (1− φ1)ε2
Maxwell-Wagner effects should be consideredin for all composite materials.
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This investigation shows that a dielectric composedof strata of different kinds may exhibit the phenomenaknown as electric absorption and residual discharge, al-though none of the substances of which it is made ex-hibit these phenomena when alone.
Maxwell 1873
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This investigation shows that a dielectric composedof strata of different kinds may exhibit the phenomenaknown as electric absorption and residual discharge, al-though none of the substances of which it is made ex-hibit these phenomena when alone.
Maxwell 1873
Wagner 1914, Sillars 1936
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This investigation shows that a dielectric composedof strata of different kinds may exhibit the phenomenaknown as electric absorption and residual discharge, al-though none of the substances of which it is made ex-hibit these phenomena when alone.
Maxwell 1873
Wagner 1914, Sillars 1936
Chapter 3, Kremer and SchonhalsChapter 13, Steenman and Turnhout
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This investigation shows that a dielectric composedof strata of different kinds may exhibit the phenomenaknown as electric absorption and residual discharge, al-though none of the substances of which it is made ex-hibit these phenomena when alone.
Maxwell 1873
Wagner 1914, Sillars 1936
Chapter 3, Kremer and SchonhalsChapter 13, Steenman and Turnhout
Sometimes it is forgotten
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An insulating layer and a conducting layer
C
R
C = εε0Ad/2
R = d/2σA
Z = 1iωC
Zcomp = Zc + ZR =1
iωC+ R
Ccomp =1
iωZcomp=
C1 + iωRC
-2 0 2
log10
( )
0
1
2
comp
-2 0 2
log10
( )
0
2
4 comp
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An insulating layer and a conducting layer
C
R
C = εε0Ad/2
R = d/2σA
Z = 1iωC
Zcomp = Zc + ZR =1
iωC+ R
Ccomp =1
iωZcomp=
C1 + iωRC
-2 0 2
log10
( )
0
1
2
comp
-2 0 2
log10
( )
0
2
4 comp
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An insulating layer and a conducting layer
C
R
C = εε0Ad/2
R = d/2σA
Z = 1iωC
Zcomp = Zc + ZR =1
iωC+ R
Ccomp =1
iωZcomp=
C1 + iωRC
-2 0 2
log10
( )
0
1
2
comp
-2 0 2
log10
( )
0
2
4 comp
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General layered system
C1 = ε1ε0A(1−φ2)d = ε1
(1−φ2)Cempty
C2 = ε2ε0Aφ2d = ε2
φ2Cempty
Z = 1iωC
Zcomp = Z1 + Z2 =1
iωC1+
1iωC2
Ccomp =1
iωZcomp=
ε1ε2
φ2ε1 + (1− φ2)ε2Cempty
εcomp =ε1ε2
φ2ε1 + (1− φ2)ε2
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General layered system
C1 = ε1ε0A(1−φ2)d = ε1
(1−φ2)Cempty
C2 = ε2ε0Aφ2d = ε2
φ2Cempty
Z = 1iωC
Zcomp = Z1 + Z2 =1
iωC1+
1iωC2
Ccomp =1
iωZcomp=
ε1ε2
φ2ε1 + (1− φ2)ε2Cempty
εcomp =ε1ε2
φ2ε1 + (1− φ2)ε2
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An insulating layer and a conducting layer
ε1 = ε1 (constant)
ε2 = ε∞ + 1ε0
σiω
-2 0 2
log10
( )
-2
0
2
4
log
10
() comp
Add
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Insulating layer and relaxing layer
ε1 = ε1 (constant)
ε2 = ε∞ + ∆ε1+iωτD
-2 0 2
log10
( )
-4
-2
0
log
10
() comp
Add
ε1 = 2 (1)
ε∞ = 2 (2)
∆ε=2 (3)
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Insulating layer and relaxing layer
ε1 = ε1 (constant)
ε2 = ε∞ + ∆ε1+iωτD
-2 0 2
log10
( )
-5
-4
-3
-2
-1
log
10
() comp
Add
ε1 = 2 (1)
ε∞ = 2 (2)
∆ε=0.2 (3)
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Insulating layer and relaxing layer
ε1 = ε1 (constant)
ε2 = ε∞ + ∆ε1+iωτD
-2 0 2
log10
( )
-3
-2
-1
0
1
log
10
() comp
Add
ε1 = 2 (1)
ε∞ = 2 (2)
∆ε=20 (3)
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An insulating layer and layer with several relaxations
ε1 = ε1 (constant)
ε2 = ε∞ + ∆εD1+iωτD
+ ∆εCD
(1+iωτCD)β
-2 0 2
log10
( )
-2
-1
0
log
10
() comp
Add
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Spheres dispersed in a matrix
εcomp
ε1
ε1
ε2
ε1
ε2
Vout (r , θ) = E0
(εin − εout
εin + 2εout
)R3
r2 cos(θ)− E0rcos(θ)
Vout (r , θ) = E0
(εcomp − ε1
εcomp + 2ε1
)R3
comp
r2 cos(θ)− E0rcos(θ)
Vout (r , θ) = E0
(ε2 − ε1
ε2 + 2ε1
)NR3
2r2 cos(θ)− E0rcos(θ)
εcomp = ε12ε1 + ε2 + 2φ2(ε2 − ε1)2ε1 + ε2 − φ2(ε2 − ε1)
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Spheres dispersed in a matrix
εcomp
ε1
ε1
ε2
ε1
ε2
Vout (r , θ) = E0
(εin − εout
εin + 2εout
)R3
r2 cos(θ)− E0rcos(θ)
Vout (r , θ) = E0
(εcomp − ε1
εcomp + 2ε1
)R3
comp
r2 cos(θ)− E0rcos(θ)
Vout (r , θ) = E0
(ε2 − ε1
ε2 + 2ε1
)NR3
2r2 cos(θ)− E0rcos(θ)
εcomp = ε12ε1 + ε2 + 2φ2(ε2 − ε1)2ε1 + ε2 − φ2(ε2 − ε1)
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Spheres dispersed in a matrix
εcomp
ε1
ε1
ε2
ε1
ε2
Vout (r , θ) = E0
(εin − εout
εin + 2εout
)R3
r2 cos(θ)− E0rcos(θ)
Vout (r , θ) = E0
(εcomp − ε1
εcomp + 2ε1
)R3
comp
r2 cos(θ)− E0rcos(θ)
Vout (r , θ) = E0
(ε2 − ε1
ε2 + 2ε1
)NR3
2r2 cos(θ)− E0rcos(θ)
εcomp = ε12ε1 + ε2 + 2φ2(ε2 − ε1)2ε1 + ε2 − φ2(ε2 − ε1)
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Insulating matrix relaxing filler
ε1
ε2
ε1
ε2ε1 = ε1 (constant)
ε2 = ε∞ + ∆εD1+iωτD
+ ∆εCD
(1+iωτCD)β
-2 0 2
log10
( )
-2
-1
0
log
10
() comp
Add
φ2 = 0.2 (4)
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Insulating filler relaxing matrix
ε1
ε2
ε1
ε2ε1 = ε∞ + ∆εD1+iωτD
+ ∆εCD
(1+iωτCD)β
ε2 = ε1 (constant)
-2 0 2
log10
( )
-1
-0.5
0
0.5
log
10
() comp
Add
φ2 = 0.2 (5)
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Insulating filler relaxing matrix
ε1
ε2
ε1
ε2ε1 = ε∞ + ∆εD1+iωτD
+ ∆εCD
(1+iωτCD)β
ε2 = ε1 (constant)
-2 0 2
log10
( )
-1.5
-1
-0.5
0
log
10
() comp
Add
φ2 = 0.8 (6)
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Take home summary
Large effect when insulation covers the platesLarge effect with conducting fillerLarge effect with large amplitude of dielectric loss
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Crystallization of n-butanol
0 . 0 0 . 3 0 . 6 0 . 9 2 0 4 0 6 0 8 0 1 0 0 1 2 0 1 4 06 08 0
1 0 01 2 01 4 01 6 01 8 02 0 02 2 02 4 02 6 02 8 03 0 0
T mT (K)
t i m e ( m i n )
T g
C r y s t a l l i z a t i o n
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Crystallization of n-butanol
0 . 0 0 . 3 0 . 6 0 . 9 2 0 4 0 6 0 8 0 1 0 0 1 2 0 1 4 06 08 0
1 0 01 2 01 4 01 6 01 8 02 0 02 2 02 4 02 6 02 8 03 0 0
T mT (K)
t i m e ( m i n )
T g
C r y s t a l l i z a t i o n
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MW-analysis of n-butanol crystallization
Microscopic interpretationsPolyamorphism: R. Kurita and H. Tanaka, J. Phys.: Con-dens. Matter 17, L293 (2005)Breaking of hydrogen bond structure in isopropanol:A. Sanz et al., Phys. Rev. Lett. 93, 015503 (2004)
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MW-analysis of n-butanol crystallization
Microscopic interpretationsPolyamorphism: R. Kurita and H. Tanaka, J. Phys.: Con-dens. Matter 17, L293 (2005)Breaking of hydrogen bond structure in isopropanol:A. Sanz et al., Phys. Rev. Lett. 93, 015503 (2004)
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Crystallization of glycerol
0 1 0 2 0 3 0 4 0 5 0 1 7 5 2 0 01 6 01 8 02 0 02 2 02 4 02 6 02 8 03 0 0
2 2 0 K2 3 0 K
2 4 0 K
C r y s t a lG r o w t h
- 5 K / h
T (K)
t i m e ( h )
N u c l e a t i o n
T m
T g1 9 0 K
log (frequency [Hz])2 3 4 5 6
0''
0
5
10
15
20
"00 20 40
N (
t)
0
0.5
1, peakMW
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Crystallization of glycerol
0 1 0 2 0 3 0 4 0 5 0 1 7 5 2 0 01 6 01 8 02 0 02 2 02 4 02 6 02 8 03 0 0
2 2 0 K2 3 0 K
2 4 0 K
C r y s t a lG r o w t h
- 5 K / h
T (K)
t i m e ( h )
N u c l e a t i o n
T m
T g1 9 0 K
log (frequency [Hz])2 3 4 5 6
0''
0
5
10
15
20
"00 20 40
N (
t)
0
0.5
1, peakMW
-12.4 -12.0 -11.6 -11.2 -10.8 -10.4
4 . 0
4 . 4
4 . 8
5 . 2
5 . 6
�� �� ���������������
�������������������� ����� ����������������� ������������������ �� �������� ����������������������
�������������������� ����� ���������������� s l o p e = - 1
l o g ( D [ c m 2 / s ] )
log (τ cry
s [s])
- 14 . 0
4 . 4
4 . 8
5 . 2
5 . 6log (τ *crys [s])
time (s)103 104 105 106
N (
t)
0
0.2
0.4
0.6
0.8
1220.2 K
220.7 K
230.4 K
230.3 K
230.1 K
240.3 K
240.3 K
240.5 K
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Aborted crystallization of glycerolYuan et al. J. Chem. Phys.136, 041102 (2012)Mobius et al. J. Phys.Chem. B 114, 22, 7439(2010)Zondervan et al. PNAS July31, 2007. 104 (31) 12628(2007)
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Aborted crystallization of glycerolYuan et al. J. Chem. Phys.136, 041102 (2012)Mobius et al. J. Phys.Chem. B 114, 22, 7439(2010)Zondervan et al. PNAS July31, 2007. 104 (31) 12628(2007)
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Take home summary
Dielectrics is a powerful tool for crystallization studies– but be aware of Maxwell-Wagner Effects
Thank you for your attention