Transmission Electron Microscopy Skills:Analytical electron microscopy Lecture 12
Transmission Electron Microscopy Investigation on Defect ...
Transcript of Transmission Electron Microscopy Investigation on Defect ...
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11th Scientific Conference &12th Annual General Meetingof the ELECTRON MICROSCOPY SOCIETY OF MALAYSIA11th Scientific Conference &12th Annual General Meetingof the ELECTRON MICROSCOPY SOCIETY OF MALAYSIA
Johore Bahru 17 December 2002
Transmission Electron MicroscopyInvestigation on Defect Structuresof Molybdenum Oxides
Dangsheng SuDi WangRobert Schlögl
Fritz Haber Institute ofthe Max Planck SocietyBerlin
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Why I come here ? Why I come here ?
born in China.
Ph.D in Austria
work in Germany
look like Malay
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Reduction/Oxidation of Mo Oxides
Short range order defect structure forms molybdenium suboxide ?Visualisation and detection by means of HREM and electron diffraction ?
u XAS studies on reduction/oxidation of MoO3-x
Presence of edge-shared octahedra with short Mo-Mo distance in MoO3-x
(T. Ressler, etc., J. Catalysis (2000) 191, 75)
u XRD and XAS studies on reduction of MoO3
T<698K MoO3+H2 MoO2+H2O
T>698K 3MoO3+MoO2 Mo4O11
Mo4O11+3H2 4MoO2+3H2O
No Crystalline intermediates is formed(T. Ressler, etc., J. Phys. Chem. B (2000) 104, 6360)
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Homologous series of Mo suboxides
u MonO3n-2 (17≤ n ≤25) Mo18O52 , … derived from MoO3 (layered structure)
u MonO3n-1 (n<10) Mo8O23 , … derived from ReO3-type structure
Shear Structures
Other structures
u Mo4O11 , u Mo5O14 , …
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a
b
c xy
z
c
b
b
ac
a
Structure Model of MoO3
Space group: Pbnm
Structure type: Orthorhombic
a=3.92 Åb=13.94 Åc=3.66 Å
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Structure Model of MoO2
Space group: P21/c
Structure type: Monoclinic
a=5.61 Åb=4.86 Åc=5.63 Åβ=120.9°
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1/2 aM+1/2 cM
1/2 aM - 1/6 bM
Principles of Shear Operation
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Structure Model of Mo18O52
Space group: p-1
Structure type: triclinic
a=8.15 Åb=11.89 Åc=21.23 Åα=102.7°β=67.8°γ= 110.0°
ab
c
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Simulated EDP and HREM images of Mo18O52 on [100] projection
24.4 73.3 97.7 146.6Sample Thickness(Å)
EDP
HREM Image
Defocus: -400 Å
Defocus: -600 Å
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EDP and HREM of Mo18O52
2 nm 2 nm
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a
(1 0 2)R
c
Structural Principles of Mo8O23
Space group: P2/a
Structure type: Monoclinic
a=16.8 Åb=4.04 Åc=13.4 Åβ=106.5 °
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20.2 60.6 101.0 141.4Sample Thickness(Å)
EDP
HREM Image
Defocus: -400 Å
Defocus: -600 Å
Simulated EDP and HREM images of Mo8O23 on [010] projection
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EDP and HREM of Mo8O23
2 nm 2 nm
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Structure Model of Mo4O11
Space group: P21/a
Structure type: Monoclinic
a=24.54 Åb=5.44 Åc=6.70 Åβ=94.3°c
a
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Simulated EDP and HREM images of Mo4O11on [010] projection
Sample Thickness(Å)
EDP
HREM Image
Defocus: -400 Å
Defocus: -600 Å
21.76 65.27 108.78 152.29
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EDP and HREM of Mo4O11
10 nm
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Structure Model of Mo5O14
Space group: P4/mbm
Structure type: tetragonal
a=45.99 Åb=45.99 Åc=3.94 Å
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Simulated EDP and HREM images of Mo5O14on [001] projection
Sample Thickness(Å)
EDPThickness: 50 Å
HREM Image
Defocus: -400 Å
Defocus: -600 Å
19.7 59.1 137.898.4
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Summary Summary
Crystallographic shearing is important in understanding the oxygen diffusion and phase transition mechanism of transition metal oxides in catalytic reactions.
CS plane produces well defined satellite spots in electron diffraction pattern Application of TEM in the investigation of the reaction mechanism in solid state chemistry
HREM, supported by image simulation, allows the visualization of the CS structures at nanometer scale Opens the possibility for the in-situ HREM investigation of real catalyticreaction at atomic scale.