Matthew Weyland
Matthew Weyland
Associate Professor, Monash University
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
3D electron microscopy in the physical sciences: the development of Z-contrast and EFTEM tomography
PA Midgley, M Weyland
Ultramicroscopy 96 (3-4), 413-431, 2003
Z-Contrast tomography: a technique in three-dimensional nanostructural analysis based on Rutherford scatteringElectronic supplementary information (ESI) available: 3D …
PA Midgley, M Weyland, JM Thomas, BFG Johnson
Chemical communications, 907-908, 2001
The influence of Cu/Li ratio on precipitation in Al–Cu–Li–x alloys
B Decreus, A Deschamps, F De Geuser, P Donnadieu, C Sigli, ...
Acta Materialia 61 (6), 2207-2218, 2013
Correlation of contact resistance with microstructure for Au/Ni/Al/Ti/AlGaN/GaN ohmic contacts using transmission electron microscopy
AN Bright, PJ Thomas, M Weyland, DM Tricker, CJ Humphreys, R Davies
Journal of Applied Physics 89 (6), 3143-3150, 2001
The building block of long-period structures in Mg–RE–Zn alloys
YM Zhu, M Weyland, AJ Morton, K Oh-Ishi, K Hono, JF Nie
Scripta materialia 60 (11), 980-983, 2009
Electron tomography
M Weyland, PA Midgley
Materials Today 7 (12), 32-40, 2004
Magnetite morphology and life on Mars
PR Buseck, RE Dunin-Borkowski, B Devouard, RB Frankel, ...
Proceedings of the National Academy of Sciences 98 (24), 13490-13495, 2001
The influence of precipitation on plastic deformation of Al–Cu–Li alloys
A Deschamps, B Decreus, F De Geuser, T Dorin, M Weyland
Acta materialia 61 (11), 4010-4021, 2013
Electron tomography of nanoparticle catalysts on porous supports: A new technique based on Rutherford scattering
M Weyland, PA Midgley, JM Thomas
The Journal of Physical Chemistry B 105 (33), 7882-7886, 2001
Structure and energetics of the coherent interface between the θ′ precipitate phase and aluminium in Al–Cu
L Bourgeois, C Dwyer, M Weyland, JF Nie, BC Muddle
Acta Materialia 59 (18), 7043-7050, 2011
Three-dimensional morphology and crystallography of gold nanorods
H Katz-Boon, CJ Rossouw, M Weyland, AM Funston, P Mulvaney, ...
Nano letters 11 (1), 273-278, 2011
Three-dimensional imaging of nonspherical silicon nanoparticles embedded in silicon oxide by plasmon tomography
A Yurtsever, M Weyland, DA Muller
Applied Physics Letters 89 (15), 151920, 2006
Mechanisms for nanocrystal formation in metallic glasses
KF Kelton, TK Croat, AK Gangopadhyay, LQ Xing, AL Greer, M Weyland, ...
Journal of non-crystalline solids 317 (1-2), 71-77, 2003
The effect of precipitate size on the yield strength-pitting corrosion correlation in Al–Cu–Mg alloys
KD Ralston, N Birbilis, M Weyland, CR Hutchinson
Acta Materialia 58 (18), 5941-5948, 2010
Role of nanostructure in pitting of Al–Cu–Mg alloys
KD Ralston, N Birbilis, MK Cavanaugh, M Weyland, BC Muddle, ...
Electrochimica Acta 55 (27), 7834-7842, 2010
The magic thicknesses of θ′ precipitates in Sn-microalloyed Al–Cu
L Bourgeois, C Dwyer, M Weyland, JF Nie, BC Muddle
Acta materialia 60 (2), 633-644, 2012
Electron tomography of catalysts
M Weyland
Topics in Catalysis 21 (4), 175-183, 2002
Selective laser melting of a high strength AlMnSc alloy: alloy design and strengthening mechanisms
Q Jia, P Rometsch, P Kürnsteiner, Q Chao, A Huang, M Weyland, ...
Acta Materialia 171, 108-118, 2019
Combined electron beam imaging and ab initio modeling of precipitates in Al–Li–Cu alloys
C Dwyer, M Weyland, LY Chang, BC Muddle
Applied Physics Letters 98 (20), 201909, 2011
Characterization of planar features in Mg–Y–Zn alloys
YM Zhu, AJ Morton, M Weyland, JF Nie
Acta materialia 58 (2), 464-475, 2010
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