Max Planck Institute for Sustainable Materials

Publications of X. Wu

All genres

Poster (5)

21.

Poster

Wu, X.; Erbe, A.; Fabritius, H. O.; Raabe, D.: Ultrastructural Origins of Optical Properties in the Exoskeletons of Beetles. 2011 MRS Fall Meeting, Boston, MA, USA (2011)

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22.

Poster

Wu, X.; Erbe, A.; Fabritius, H.; Raabe, D.: Structure of the 3D-Photonic Crystals in the Multi-Colored Scales of the Weevil Entimus imperialis (Curculionidae). Ninth International Conference on Photonic and Electromagnetic Crystal Structures (PECS-IX 2010), Granada, Spain (2010)

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23.

Poster

Wu, X.; Erbe, A.; Fabritius, H.; Raabe, D.: Spectral and angular distribution of light scattered from the elytra of two carabid beetle species. First NanoCharm Workshop on Advanced Polarimetric Instrumentation, Ecole Polytechnique, Palaiseau Cedex, Palaiseau Cedex, France (2009)

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Thesis - PhD (1)

24.

Thesis - PhD

Wu, X.: Structure-property-relations of cuticular photonic crystals evolved by different beetle groups (Insecta, Coleoptera). Dissertation, RWTH-Aachen, Aachen, Germany (2014)

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Scientists

Image of Shalini Bhatt, Doctoral student

Shalini Bhatt, Doctoral student

+49 211 6792 283 s.bhatt@...

Image of Dr. Shyam Katnagallu

Dr. Shyam Katnagallu

Postdoc +49 211 6792 492 s.katnagallu@...

Image of Dr. Christoph Freysoldt

Dr. Christoph Freysoldt

Group Leader +49 211 6792 961 freysoldt@...

Publications

Bhatt, S.; Katnagallu, S.; Neugebauer, J.; Freysoldt, C.: Accurate computation of chemical contrast in field ion microscopy. Physical Review B 107 (23), 235413 (2023)

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publisher-version

python code (github)

Research Group

Defect Chemistry and Spectroscopy

Defect Chemistry and Spectroscopy

The Defect chemistry and Spectroscopy group's aim is to develop multi-scale simulation techniques for point defects and related topics, and to apply them to problems in functional materials design.

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Related Projects

Method developments in field ion emission microscopy techniques

Method developments in field ion emission microscopy techniques

The project focuses on development and design of workflows, which enable advanced processing and analyses of various data obtained from different field ion emission microscope techniques such as field ion microscope (FIM), atom probe tomography (APT), electronic FIM (e-FIM) and time of flight enabled FIM (tof-FIM).

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Generalized Dipole Correction for Charged Slabs

Generalized Dipole Correction for Charged Slabs

It is very challenging to simulate within DFT extreme electric fields (a few 10¹⁰ V/m) at a surface, e.g. for studying field evaporation, the key mechanism in atom probe tomography (APT). We have developed a straight-forward scheme to incorporate an ideal plate counter-electrode in a nominally charged repeated-slab calculation by means of a generalized dipole correction of the standard electrostatic potential obtained from fully periodic FFT.

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