研究领域
Centred on the design of experimental technique for transmission electron microscope. His research has pioneered the application of electron tomography for the 3D characterization of nanoscale materials. His current research areas include:
Possibilities and challenges of Aberration corrected TEM/STEM.
Atomic resolution 3D reconstruction.
High resolution scanning transmission electron microscopy (STEM) and electron energy loss spectroscopy (EELS).
近期论文
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C Dwyer, M Weyland, L Y Chang and B C Muddle, Combined electron beam imaging and ab-initio modelling of embedded nanoscale precipitates in alloys, Applied Physics Letters 98, 201909
M Arredondo, M Weyland, M Hambe, Q M Ramasse, P Munroe and V Nagarajan, Chemistry of Ruddlesden-Popper planar faults at a ferroelectric-ferromagnet perovskite interface, Journal of Applied Physics 109, 084101
H Katz-Boon, C J Rossouw, M Weyland, A M Funston, P Mulvaney and J Etheridge, Three-Dimensional Morphology and Crystallography of Gold Nanorods, Nano Letters 11, 273
M Arredondo, Q Ramasse, M Weyland, R Mahjoub, I Vrejoiu, D Hesse, N D Browning, M Alexe, P Munroe and V Nagarajan, Direct evidence for cation non-stoichiometry and Cottrell atmospheres around dislocation cores in functional oxide interfaces, Advanced Materials 22, 2430
K D Ralston, N Birbilis, M K Cavanaugh, M Weyland, C.R. Hutchinson, B.C. Muddle, R. Marceau, Role of Nanostructure in Pitting of Al-Cu-Mg Alloys, Electrochimica Acta 55, 7834-7842
K D Ralston, N Birbilis, M Weyland, C.R. Hutchinson, The effect of precipitate size on the yield strength-pitting corrosion correlation in AlCuMg alloys, Acta Materialia 58, 5941-5948
Y M Zhu, A J Morton, M Weyland, J F Nie, Characterization of planar features in MgYZn alloys, Acta Materialia 58, 464-475
Y M Zhu, M Weyland, A J Morton, K Oh-Ishi, K Hono, J F Nie, The building block of long-period structures in Mg-RE-Zn alloys, Scipta Materialia 60 (11), 980-983
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