Dr. Probe - publication list

Dr. Probe / examples


  1. M. Bar-Sadan et al., "Direct Imaging of Single Au Atoms in GaAs Nanowires", Nano Lett. 12 (2012) 2352-2356. [doi]
  2. J. Barthel, "Time-efficient frozen phonon multislice calculations for image simulations in high-resolution STEM", Proc. of the 15th Euro. Microsc. Cong. (2012). [weblink]
  3. C.L. Jia et al., "Atomic-Scale Measurement of Structure and Chemistry of a Single-Unit-Cell Layer of LaAlO3 Embedded in SrTiO3", Microscopy and Microanalysis 19 (2013) 310-318. [doi]
  4. D.G. Stroppa et al., "Assessment of a nanocrystal 3-D morphology by the analysis of single HAADF-HRSTEM images", Nanoscale Research Letters 8 (2013) 475. [doi]
  5. M. Heidelmann et al., "Periodic Cation Segregation in Cs0.44[Nb2.54W2.46O14] Quantified by High-Resolution Scanning Transmission Electron Microscopy", Microscopy and Microanalysis 20 (2014) 1453-1462. [doi]
  6. D.G. Stroppa et al., "Analysis of Dopant Atom Distribution and Quantification of Oxygen Vacancies on Individual Gd-Doped CeO2 Nanocrystals", Chemistry - A European Journal 22 (2014) 6288-6293. [doi]
  7. C.L. Jia et al., "Determination of the 3D shape of a nanoscale crystal with atomic resolution from a single image", Nature Materials 13 (2014) 1044-1049. [doi]
  8. S.G. Wolf, L. Houben, M. Elbaum, "Cryo-scanning transmission electron tomography of vitrified cells", Nature Methods 11 (2014) 423-428. [doi]
  9. I. MacLaren et al., "On the origin of differential phase contrast at a locally charged and globally charge-compensated domain boundary in a polar-ordered material", Ultramicroscopy 154 (2015) 57-63. [doi]
  10. H. Du et al., "Atomic Structure of Antiphase Nanodomains in Fe-Doped SrTiO3 Films", Adv. Funct. Mater. 25 (2015) 6369-6373. [doi]
  11. A. Stoffers et al., "Complex Nanotwin Substructure of an Asymmetric Σ9 Tilt Grain Boundary in a Silicon Polycrystal", Phys. Rev. Lett. 115 (2015) 235502. [doi]
  12. J.M. Salih et al., "Maghemite-like regions at the crossing of two antiphase boundaries in doped BiFeO3", Mat. Sci. Tech. 32 (2016) 242-247. [doi]
  13. L.S. Panchakarla et al., "Strontium cobalt oxide misfit nanotubes", Chem. Mat. 28 (2016) 9150-9157. [doi]
  14. L. Jin et al., "Surface reconstructions and related local properties of a BiFeO3 thin films", Sci. Rep. 7 (2017) 39698. [doi]
  15. S. Borghardt et al., "Quantitative Agreement between Electron-Optical Phase Images of WSe2 and Simulations Based on Electrostatic Potentials that Include Bonding Effects", Phys. Rev. Lett. 118 (2017) 086101. [doi]
  16. H. Du et al., "Nanosized Conducting Filaments Formed by Atomic-Scale Defects in Redox-Based Resistive Switching Memories", Chem. Mater. 29 (2017) 3164-3173. [doi]
  17. F. Winkler et al., "Quantitative measurement of mean inner potential and specimen thickness from high-resolution off-axis electron holograms of ultra-thin layered WSe2", Ultramicroscopy 176 (2017) 99-107. [doi]
  18. L. Jin et al., "Atomic resolution imaging of YAlO3:Ce in the chromatic and spherical aberration corrected PICO electron microscope", Ultramicroscopy 178 (2017) 38-47. [doi]
  19. Y.T. Chen et al., "Nanometre-scale 3D defects in Cr2AlC thin films", Scientific Reports 7 (2017) 984. [doi]
  20. J.E. Kleibeuker et al., "Route to achieving perfect B-site ordering in double perovskite thin films", NPG Asia Materials 9 (2017) e406. [doi]
  21. H. Zhao et al., "Elucidating structural order and disorder phenomena in mullite-type Al4B2O9 by automated electron diffraction tomography", J. Sol. State Chem. 249 (2017) 114-123. [doi]
  22. A. Bashir et al., "Interfacial sharpness and intermixing in a Ge-SiGe multiple quantum well structure", J. Appl. Phys. 123 (2018) 035703. [doi]
  23. F. Winkler et al., "Absolute Scale Quantitative Off-Axis Electron Holography at Atomic Resolution", Phys. Rev. Lett. 120 (2018) 156101. [doi]
  24. J. Barthel, "Dr. Probe: A software for high-resolution STEM image simulation", Ultramicroscopy 193 (2018) 1-11. [doi]
  25. S. Myeong et al., "Understanding voltage decay in lithium-excess layered cathode materials through oxygen-centred structural arrangement", Nature Communications 9 (2018) 3285. [doi]
  26. Q.D. Truong et al., "Inversion domain boundaries in MoSe2 layers", RSC Adv. 8 (2018) 33391-33397. [doi]
  27. I. Hilmi et al., "Influence of substrate dimensionality on the growth mode of epitaxial 3D-bonded GeTe thin films: From 3D to 2D growth", Materials and Design 168 (2019) 107657. [doi]


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