G. Van Tendeloo
University of Antwerp
863 Papers
9.1K Citations
G. Van Tendeloo is an academic researcher from University of Antwerp. The author has contributed to research in topics: Electron diffraction & Crystal structure. The author has an hindex of 72, co-authored 845 publications. Previous affiliations of G. Van Tendeloo include University of Birmingham & University of Caen Lower Normandy.
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Papers
Electron diffraction study of small bundles of single-wall carbon nanotubes with unique helicity
TL;DR: In this article, the helicity and lattice packing of the single-wall carbon nanotubes within the bundles have been deduced from the experimental diffraction patterns on the basis of the geometry of the reciprocal space of carbon and computer simulations based on the kinematical theory.
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Modulated structures in calcian dolomite: A study by electron microscopy
G. Van Tendeloo,Hans-Rudolf Wenk,Ronald Gronsky +2 more
- 01 Nov 1985
TL;DR: In this article, it was shown that at 1 MeV electron irradiation, the Mg-Ca distribution becomes disordered and the crystal structure attains calcite symmetry, while the arrangement of CO3 groups remains ordered.
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SrTiO 3 (100)/(LaMnO 3 ) m (SrMnO 3 ) n layered heterostructures: A combined EELS and TEM study
TL;DR: In this article, the energy loss near edge structure (ELNES) of O and Mn is compared for both LMO and SMO layers and shows that the Mn-O bonds have a partially covalent character.
On the Asymmetric Next-Nearest-Neighbor Ising Model of Oxygen Ordering in YBa2Cu3Oz
TL;DR: In this paper, it is shown that, at equilibrium, only infinite-chain structures can be stabilized and those models based on hypothetical screened Coulomb interactions cannot produce stable ground states, and that diffraction data (neutrons, X-rays, electrons) from oxygen-lean samples are indicative of metastable displacive transformations, and are not directly related to oxygen ordering.
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A high resolution study of ordering in Au4Mn2) I. The microstructure of fully ordered Au4Mn
G. Van Tendeloo,S. Amelinckx +1 more
TL;DR: In this paper, the ordered Au4Mn alloy is studied by high resolution dark field electron microscopy and detailed atomic level information can be obtained concerning the structure of the domain boundaries.
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