Philip N. H. Nakashima
Philip’s primary research interests focus on the determination of atomic structure and the measurement of electronic structure and chemical bonding in crystalline materials using convergent-beam electron diffraction (CBED) and quantitative CBED (QCBED). This has led to research interest and expertise in the following domains:
- Transmission electron microscopy (TEM)
- Electron diffraction (CBED and QCBED)
- Quantum crystallography (electron distribution and chemical bonding)
- Electron crystallography
- Metals physics
- Strongly correlated electron materials, semiconductors and other inorganic compounds
- Experimental and theoretical condensed matter physics
- Plasmonics and electron dynamics in metals
- Electron energy loss spectroscopy (EELS)
- Detector characterisation, digital image restoration, quantification and quality control
- Electron diffraction and scattering calculations, software development and programming
- Computational physics and modelling
- Creative approaches in teaching crystallography to undergraduates and postgraduates
A considerable proportion of Philip’s research efforts have involved technique development, spanning most of the domains listed above, with a tendency to develop a new technique and then apply it to the solution of a materials science problem. This approach to his research is best exemplified by the development of differential QCBED [1 – 3], which was immediately followed by the determination of the bonding electron density in aluminium [4, 5].
 P.N.H. Nakashima, Phys. Rev. Lett. 99 (2007), 125506.
 P.N.H. Nakashima, B.C. Muddle, J. Appl. Cryst. 43 (2010), 280-284.
 P.N.H. Nakashima, B.C. Muddle, Phys. Rev. B 81 (2010), 115135.
 P.N.H. Nakashima, A.E. Smith, J. Etheridge, B.C. Muddle, Science 331 (2011), 1583-1586.
 P.A. Midgley, Science 331 (2011), 1528-1529.