diffusion in nanocrystalline solids · 2007. 1. 12. · diffusion in nanocrystalline solids...
TRANSCRIPT
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Diffusion in Nanocrystalline SolidsDiffusion in Nanocrystalline Solids
Alan ChadwickAlan ChadwickFunctional Materials Group
School of Physical SciencesUniversity of Kent
CanterburyKent CT2 7NH, UK
Diffusion Fundamentals I - Leipzig – 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
PLAN of the TALK1. INTRODUCTION TO NANOCRYSTALLINE SOLIDS
What is the reason for interest? Unusual properties. Nanotechnology.
4. DIFFUSION EXPERIMENTSTechniques. Special problems with nanomaterials.
5. OVERVIEW OF THE DATAWhat data are available for nanocrystals
6. CONCLUSIONS AND VIEW TO THE FUTURE
3. CHARACTERISATION OF SAMPLESHow is the size measured? How is the size controlled?
2. PREPARATION OF SAMPLESHow are nanocrystals made? Are samples dependent on the method?
Plan
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
ORIGINS
H. Gleiter, Prog. Mater. Sci., 33 (1989) 223.
H. Gleiter, Adv. Mater., 1992, 4, (1992) 474.
H. Gleiter, Acta mater., 48 (2000) 1.
Institute of Nanotechnology,Research Center Karlsruhe,
P.O. Box 3640, D-76021, Karlsruhe, Germany
FB Physik, Gebaude 43,
Universität des Saarlandes,66041 Saarbrücken, Germany
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
Definition“A nanostructured (or
nanophase) material is one in which one or more dimensions is in the nanometre regime.”
Typically <100 nm, more usually <10 nm.
Now of interest to chemists, physicists, materials scientists and biologists.
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
QuotesThe development of the applications of these materials, nanotechnology, features in the forward science planning of most developed countries (e.g. in Foresight plans of the UK, Japan and US) and the US government regards it as “the next industrial revolution”.
‘Nanocrystals are terra incognito’ – Joachim Maier
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
EXAMPLES OF JOURNALS
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
40 Modelling of Diffusion-Controlled Pattern Formation in Thin Metallic Film Growth on Crystalline SubstratesV. Kuzovkov, E. Kotomin, G. Zvejnieks
41 Calculation of the Effective Diffusion Coefficient for Heterogeneous Media J.R. Kalnin, E.A. Kotomin, J. Maier, V.N. Kuzovkov
55 Computer Simulation of the Formation of Hollow NanocrystalsI. V. Belova, G. E. Murch
58 Surface Diffusion and Growth of Alloy Nanoclusters: A Monte Carlo Study S. Heinrichs, M. Einax, W. Dieterich, P. Maass, A. Majhofer
59 Numerical Study of Grain Boundary Diffusion: Size Effects D. Gryaznov, J. Fleig, J. Maier
63 Diffusion of Nano-Sized Liquid Pb Inclusions in Thin Aluminum FoilsS. Prokofjev, V. Zhilin, E. Johnson, U. Dahmen
POSTERS
103 Lattice and Grain Boundary Diffusion of Cations in Tetragonal Zirconia S. Swaroop, M. Kilo, Ch. Argirusis, G. Borchardt, A. H. Chokshi
67 Enhanced Ionic Conductivity in Heavily Doped Ceria Nanoceramics M. G. Bellino, D. G. Lamas, N. E. Walsöe de Reca
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
MATERIALS
1. METALS2. SEMICONDUCTORS3. IONIC CRYSTALS4. POLYMERS5. BIOLOGICAL SAMPLES
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
Applications For Nanocrystalline OxidesAs electrolytesBattery electrolytesSolid oxide fuel cells (SOFC)SensorsAs electrodesBatteriesPhotovoltaic devicesAs catalystsHeterogeneous reactionsAbsorbers
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LiLi LiLi
UM II
ALISTOREALISTORE
Advanced Lithium Ion Storage Batteries based on Nanomaterials
EU Framework 6 Network of Excellence
17 European Laboratories
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
'UNUSUAL PHYSICS AND CHEMISTRY’
1. DOMAIN SIZE AT LESS THAN 100nm VARIOUS PROPERTIES OF THE GRAIN ARE AFFECTED. SIZE IS LESS THAN CRITICAL LENGTH FOR MANY PROPERTIES TO BE APPARENT. AN EXAMPLE IS SUPERHARDNESS - THE GRAINS ARE TOO SMALL FOR A FRANK-READ DISLOCATION SOURCE TO BE OPERATIVE. ANOTHER EXAMPLE IS COLOUR.
2. GRAIN BOUNDARIES THE SAMPLES ARE RIDDLED WITH GRAIN BOUNDARIES. THUS THERE IS SUPERPLASTICITY AS A COMPRESSED MATERIAL WILL EASILY FLOW AS THE GRAINS SLIDE PAST EACH OTHER. THE FAST GRAIN BOUNDARY DIFFUSION WILL ALLOW QUICK ANNEALING.
3. HIGH SURFACE AREA THUS THERE IS ENHANCED CATALYTIC ACTIVITY. NOT SIMPLY AREA BUT DIFFERENT MORPHOLOGY.
4. UNUSUAL COMPOSITIONS COMPOSITIONS ARE OFTEN DIFFERENT FROM BULK MATERIALS AS IMPURITIES CAN BE INCORPORATED IN BOUNDARIES.
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
EARLY EXPERIMENTAL FINDINGSA. BROAD LINE XRPD
B. REDUCED DEBYE TEMPERATURE
C. ENHANCED SPECIFIC HEAT
E. INCREASED THERMAL EXPANSION
G. CHANGE IN POSITRON LIFETIME
D. ENHANCED SOLUTE SOLUBILITY
H. MD STUDIES INDICATE A WIDE DISTRIBUTION OF INTERATOMIC SPACINGS IN GRAIN BOUNDARIES
I. REDUCED AMPLITUDE IN EXAFS OSCILLATIONS
F. ENHANCED DIFFUSION
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
COMPARISON OF PROPERTIESPROPERTY BULK GLASS NANO SYSTEM
DIFFUSIOND/m2s-1 at 300K 10-39 67Cu/Cu
10-39 10-36 Ag/Cu
SOLUBILITY/% <10-4 Bi/Cu10-3 H2/Pd
DEFORMATION/% <0.1 TiO2
MAGNETISATION 220 213 130 Fe/emu/g (4K)
Cp ELECTRONIC 1 ~1 1.6 Cu(1-100K)/105x J/gm/K
CARRIER DENSITY 1.24 ~1.2 0.6 Cu/electron per atom
10-19
2x10-19
410-1
>100
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
IMPORTANCE OF DIFFUSION IN NANOMATERIALS
1. MICROELECTRONICS – nanowires/nanocontacts
2. CATALYSTS – powder growth/reactant contact
3. CERAMICS – toughness/fatigue
4. SENSORS – aging/hysteresis
5…... Etc,etc,etc
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
Response of nanocrystalline tin oxide sensor to CO
75 nm
5 nm
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
Particle Growth of Tin Oxide
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
AN EXAMPLE OF DIFFUSION IN
NANOCRYSTALS
AGE OF ARCHAEOLOGICAL
BONES
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
BONEA mineral/organic nanocomposite
calcium hydroxy apatite2-3 nm thick platelets
biological C/H/O/ polymer chain
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0 20 40 60 80 100 120 140 160 Age/1000 years
Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
J.C. Hillera, M.J. Collins, A.T. Chamberlain, T.J. Wess; Journal of Archaeological Science 31 (2004) 1349
Thickness of platelet versus AgeSAXS WAXS data
Correlation of size with age
Smaller the size the ‘fresher’ the bone –chance of extracting
DNA
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
Percentage Oxygen Ions in the Surface of MgO
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
Early Picture of Nanocrystals
Crystalline grains Highly
disordered interfaces
‘gas-like’
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
Two Possible Models for the Interface Between Nanocrystalline Grains
(a) disordered interface
(b) a ‘normal’ grain boundary’
INTRODUCTION TO NANOCRYSTALLINE SOLIDS
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
PREPARATION OF SAMPLES
PREPARATION OF SAMPLES
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
PREPARATION OF SAMPLES
METHODS OF PREPARING NANOCRYSTALS
1. Inert gas condensation (IGC) – general/all materials
4. Sol-gel routes – mainly oxides
2. Mechanical attrition – general/all materials
3. Spray pyrolysis – general/mainly inorganics
5. Metal organic vapour deposition – specific materials
6. Sputtering – general/all materials
7. Molecular beam epitaxy (MBE) – general/all materials
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
Inert-gas Condensation Facility for Synthesis of Nanocrystalline Particles
PREPARATION OF SAMPLES
Relatively fast
General
Good output
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
PREPARATION OF SAMPLES
MECHANICAL ATTRITION - HIGH ENERGY BALL MILLING
SPEX
FRITSCHFast, General, Small quantities
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
Variation of Minimum Grain Size With Melting Temperature
PREPARATION OF SAMPLES
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
PREPARATION OF SAMPLES
SOL-GEL SYNTHESISUsually considered for silicon alkoxides
Metal alkoxides can be used and a final calcination step will produce nanoparticle metal oxide
Fast, Good for metal oxides, Small quantities, Expensive
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
PREPARATION OF SAMPLES
SOL-GEL SYSTEMSNANOCRYSTALLINE TIN OXIDE
2-3 nm PARTICLES POWDER FROM SnCl4.5H2O +NH4OH
NANOCRYSTALLINE ZIRCONIA
’10’ nm PARTICLES POWDER FROM CALCINING Zr(OH)4
5-100nm FILMS ON SAPPHIRE FROM KOSACKI
(ZnO, CeO2, LiNbO3)
NANOCRYSTALLINE MAGNESIUM OXIDE
5-10 nm PARTICLES POWDER FROM Mg(OCH3)3+H2O
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
CHARACTERISATION OF SAMPLES
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
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CHARACTERISATION OF SAMPLES
CHARACTERIZATION OF NANOMATERIALS
1. Crystallite sizeX-ray powder diffraction (XRD)Transmission electron microscopy (TEM)BET surface area
(A. Weibel, R. Bouchet, F. Boule’h. P. Knauth, Chem. Mat., (2005) in press.)
2. Crystallite shapeSmall/wide angle X-ray scattering (SAXS/WAXS)Transmission electron microscopy (TEM)
3. Crystallite/sample microstructureExtended X-ray absorption fine structure (EXAFS)Transmission electron microscopy (TEM)
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Powder Pattern of Sol-Gel SnO2
Particle size 3 nm
FWHM~2 to 3o
nano powder
bulk powder
CHARACTERISATION OF SAMPLES
FWHM~0.1 to 0.2o
θβλ
cosks =Scherrer equation
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CHARACTERISATION OF SAMPLES
HRTEM image of a region of nanocrystalline palladium containing a number of grains.
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CHARACTERISATION OF SAMPLES
Extended X-ray absorption fine structure (EXAFS)
The absorption of X-rays by a sample is measured across the energy range for the photoemission of a core (K or L shell) electron.Beyond the absorption edge the absorption shows oscillations as a function of incident photon energy. Photon Energy →
μ→
Photon Energy →
μ→
Photon Energy →
μ→
Radial distance/Angstroms0 1 2 3 4 5
F.T.
mag
nitu
de
Shell 1
Shell 2
Shell 3
Radial distance/Angstroms0 1 2 3 4 5
F.T.
mag
nitu
deRadial distance/Angstroms
0 1 2 3 4 5F.
T. m
agni
tude
Shell 1
Shell 2
Shell 3The oscillations are due to interference between the outgoing photoelectron wave and that part of the wave which is backscattered by neighbours. The Fourier transform of the absorption coefficient yields a partial radial distribution function around the target atom.
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
The EXAFS equation
χ(k)=∑ Nj/kRj2 | fj(π ) | exp (-2σj
2k2) exp (-2Rj /λ ) ×sin (2kRj +ϕj + 2δ )
Summed over j shells
Nj/kRj2 amplitude
term; depends on Njnumber of atoms in shell
| fj(π ) | amplitude term; depends of type of atom in shell
exp (-2σj2k2) amplitude term;
EXAFS Debye-Waller factor - σj2
is the mean square variation in Rj
sin (2kRj +ϕj + 2δ ) frequency term; contains Rj and phase shifts
exp (-2Rj /λ ) amplitude term; λis the elastic mean free path of the photoelectron
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
k/ Å-1 →
χ(k)×
k3 →
WHAT DO WE EXPECT FOR THE EXAFS OF NANOCRYSTALLINE SOLIDS?
Radial distance/Angstroms
F.T
. mag
nitu
de
0 1 2 3 4 5
M-OM-O
M-M
EXAFSAttenuation of the
spectrum due to either size (CN) or disorder (Debye-Waller factor)
Fourier TransformAttenuation of the outer
peaks due to either size (CN) or disorder (Debye-Waller factor).
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
Tin Oxide EXAFS F.T.
Radial Distance/Å
FT m
agni
tude
Bulk
3 nm nano
Sn-O
Sn-Sn
Note the reduction in Sn-Sncorrelation
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
M-M coordination number in cubic oxides
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
EXAFS of 3nm SnO2
The EXAFS is clearly attenuated
Is it due to size?
Is it due to disorder?
Definitely size and not disorder!
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
EXAFS EVIDENCE FOR THE MICROSTRUCTURE OF NANOCRYSTALLINE OXIDES
Several systems have now been investigated for sol-gel samples
Simple, binary oxides SnO2, ZrO2, CeO2, ZnO and MgO
There is no evidence for disorder or amorphous interfaces in these systems (and metals)
Characterization of nanocrystalline oxides by EXAFS spectroscopyA.V. Chadwick and G.E. Rush, in ‘Nanocrystalline Metals and Oxides’eds. P.Knauth and J. Schoonman; Kluwer, Boston, 2002.
CHARACTERISATION OF SAMPLES
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
Nature of the nanocrystalline interface
Grain boundary in bulk NiOModel of boundary in nano oxide
No Yes
Sol-gel samples (and IGC metals)
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
Ball milled (14nm)
-6
-4
-2
0
2
4
6
8
3 4 5 6 7 8 9 10 11 12 13 14 15
Wavenumber / Å-1
K3 . χ
ExperimentTheory
0
5
10
15
20
25
30
35
0 1 2 3 4 5 6 7 8 9 10
Radial Distance / Å
FT
Zr-O
Zr-Zr
Bulk
-8
-6
-4
-2
0
2
4
6
8
3 4 5 6 7 8 9 10 11 12 13 14 15
Wavenumber / Å-1
k3 . χ
ExperimentTheory
0
5
10
15
20
25
30
35
0 1 2 3 4 5 6 7 8 9 10Radial Distance / Å
FT
ExperimentTheory
Zr-O Zr-Zr
SIMPLE PEAK AREA ANALYSIS:- 50% AMORPHOUS
Zr K-edge EXAFS of ZrO2
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
CHARACTERISATION OF SAMPLES
Nature of the nanocrystalline interface
Grain boundary in bulk NiOModel of boundary in nano oxide
Yes No
Ball-milled samples
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
DIFFUSION EXPERIMENTS
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
Diffusion Techniques for Nanomaterials
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Tracer Layer
B
Tracer Layer
B
Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
Tracer penetration in a nanocrystalline compact
Numerical Study of Grain Boundary Diffusion: Size Effects, D. Gryaznov, J. Fleig, J. Maier
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
SELF-DIFFUSION IN HIGH-DENSITY NANOCRYSTALLINE Fe
H. Tanimoto, P. Farber, R Würschum, R.Z. Valiev, H.-E. Schaefer, Nanostructured Mater., 12 (1999) 681
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
AC Impedance Spectroscopy
Measure the sample resistance over a wide frequency range (~1Hz to 1MHz)
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
NMR Techniques1. NMR linewidth/line shape
Micro Li2O
Nano Li2O Nano Li2O/B2O3
Micro Li2O/B2O3
Discrimination between bulk and interface is possible
linewidth∝1/D
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
DIFFUSION EXPERIMENTS
NMR Techniques2. NMR relaxation times
micro
nano slow
nano fast
7Li spin–lattice relaxationrates in nano- and microcrystalline (1 − x)Li2O:xB2O3
Indris S and Heitjans P 2002 J. Non-Cryst. Solids 307–310 555–64
Diffusion coefficients can be calculated from the spin-lattice relaxation time, T1. T1 is determined from the exponential decay of the magnetisation following r.f. pulse.
T1 is related to the diffusion coefficient, D. If there are diffusion processes with different rates there will be different components in the decay. Thus two D’s can be evaluated, fast and slow.
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
OVERVIEW OF THE DATA
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
OVERVIEW OF DIFFUSION DATA IN NANOMATERIALS
1. Focus on the measurements of diffusion, ignoring creep. Look only at well-defined samples (IGC and sol-gel)
2. Concentrate on metals and simple ionic crystals.
3. It will be an overview, not a comprehensive tabulation of data.
Recent reviews:-“Diffusion in Nanocrystalline Metals and Alloys-A Status Report”, R. Würschum, S. Herth, U. Brossmann, Adv. Eng. Mat., 5 (2003) 365.
“Diffusion and ionic conduction in nanocrystalline ceramics”P. Heitjans, S. Indris, J. Phys.: Condens. Matter 15 (2003) R1257
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
Nickel and Oxygen Self-diffusion in Nickel Oxide
OVERVIEW OF THE DATA
Alan Atkinson(Harwell)
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L iL iDiffusion in Nanocrystalline Solids
Fe Diffusion Coefficients for Nanocrystalline Metals, Crystalline (c-) Fe, Grain Boundaries (GB) in Poly-polycrystalline Fe and the Finemet Alloys
H. Tanimoto, P. Farber, R Würschum, R.Z. Valiev, H.-E. Schaefer, Nanostructured Mater., 12 (1999) 681
OVERVIEW OF THE DATA
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
Ag, Fe, and Ni diffusion along nanocrystalline GBs in nanocrystalline Fe – 40wt%Ni alloy. The diffusivities along inter-agglomerate boundaries are shown by dashed lines
OVERVIEW OF THE DATA
S.V. Divinski, F. Hisker, Y.-S. Kang, J.-S. Lee, Chr. Herzig, Acta Mater., 52 (2004) 645.
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
R. Würschum, S. Herth, U. Brossmann, Adv. Eng. Mat., 5 (2003) 365.
Diffusion in nanocrystalline metals
Many of the early experiments yielded tracer diffusion coefficients that were far too high.There were problems with low density samples, pores, grain growth, diffusion induced grain boundary migration. All yield too fast diffusion.The current view is that the diffusion is along the boundaries between crystallites. This is similar or slightly faster than normal grain boundary diffusion.
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L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
18O Tracer Diffusion in Zirconia
Brossmann U, Wurschum R, Sodervall U and Schaefer H-E 1999 Nanostruct. Mater. 12, 871
YSZCSZ
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
The Conductivities of Nano and Micro-crystalline CaF2
OVERVIEW OF THE DATA
Puin W, Rodewald S, Ramlau R, Heitjans P and Maier J 2000 Solid State Ion. 131 159–64
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Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
Maier et al (Nature; December 2001)
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L iL iDiffusion in Nanocrystalline Solids
Maier et al (Nature; December 2001)
OVERVIEW OF THE DATA
N. Sata, K. Ebermann, K. Eberl, J. Maier, Nature, 408 (2000) 946.
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L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
N. Sata, N.Y. Jin-Phillipp, K. Eberl, J. Maier, Solid State Ionics 154– 155 (2002) 497– 502
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L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
BULK IONIC CRYSTAL
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L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
BULK IONIC CRYSTAL WITH SURFACE
~100 nm
FRENKEL-LEHOVEC SPACE CHARGE LAYER
SURFACE
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L iL iDiffusion in Nanocrystalline Solids
Normalised distance coordinate
Rel
ativ
e de
fect
co
ncen
trat
ion
OVERVIEW OF THE DATA
Space Charge Layer versus Size
Maier J 1995 Prog. Solid State Chem. 23, 171
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L iL iDiffusion in Nanocrystalline Solids
Maier et al (Nature; December 2001)
OVERVIEW OF THE DATA
N. Sata, K. Ebermann, K. Eberl, J. Maier, Nature, 408 (2000) 946.
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L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
I. Kosacki, et al., Solid State Ionics, 176 (2005) 1319
YSZ thin films
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L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
WARNING!!!!!
Some oxides, like pure CeO2, will change stoichiometry as the particle size decreases. Thus an increased conductivity in nanocrystals can be due to a change from ionic to electronic conductivity.
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L iL iDiffusion in Nanocrystalline Solids
CONCLUSIONS AND VIEW TO THE FUTURE
CONCLUSIONS AND VIEW TO THE FUTURE
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L iL iDiffusion in Nanocrystalline Solids
CONCLUSIONS AND VIEW TO THE FUTURE
CONCLUSIONS
1. The microstructure of nanomaterials depends on the preparation method.
3. The diffusion in nanocrystalline metals is similar (or slightly faster) than along grain boundaries.
4. The diffusion in nanocrystalline ionic materials is influenced strongly by grain size; space-charge effects.
2. There are now some good data, but still rather limited.
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CONCLUSIONS AND VIEW TO THE FUTURE
CHALLENGES FOR THE FUTURE
1. Understanding the precise mechanism of diffusion in the nanomaterials.
2. Utilising the properties of nanomaterials; particularly stabilizing the structure at high temperature.
3. Computer modelling of diffusion in nanomaterials; molecular dynamics.
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CONCLUSIONS AND VIEW TO THE FUTURE
THANK YOU FOR YOUR ATTENTION!
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The AshesCarbon nanoparticles
Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
July to September
2005
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The AshesCarbon nanoparticles
Diffusion Fundamentals I - Leipzig - 22/24 September 2005
L iL iDiffusion in Nanocrystalline Solids
OVERVIEW OF THE DATA
July to September
2005
Andrew ‘Freddy’ Flintoff