Ahmed El Abed scite author profile

Ahmed El Abed

2Publications

102Citation Statements Received

172Citation Statements Given

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Affiliations

Institut de Chimie de la Matière Condensée de Bordeaux, French National Centre for Scientific Research, Mohamed I University

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Growth of Sr₆Rh₅O₁₅ Single Crystals from High-Temperature Solutions: Structure Determination Using the Traditional 3-D and the 4-D Superspace Group Methods and Magnetic Measurements on Oriented Single Crystals

et al. 2001

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Single crystals of Sr6Rh5O15 were grown from a molten potassium carbonate flux. The structure was solved by both the traditional 3-D crystallographic approach and the 4-D superspace group approach using JANA2000. Both methods produced an equivalent structure determination, thereby confirming the 4-D superspace group approach as an effective structure solution method for 3-D commensurate composite structures. Sr6Rh5O15 corresponds to the n = 1, m = 1 member of the A3n+3mA'nB3m+nO9m+6n family of 2H hexagonal perovskite-related oxides. This compound is characterized by pseudo-one-dimensional polyhedral chains of four face-sharing RhO6 octahedra followed by one RhO6 trigonal prism. These chains in turn are separated by [Sr](infinity) chains. Magnetic measurements were carried out on oriented single crystals, and a very large magnetic anisotropy in the magnetic susceptibility was observed.

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Crystal Growth and Structure Determination of Barium Rhodates: Stepping Stones toward 2H−BaRhO₃

et al. 2003

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Single crystals of two new barium rhodates were grown from a molten potassium carbonate flux. The new rhodates, Ba(11)Rh(10)O(30) and Ba(32)Rh(29)O(87), are structurally related to the 2H-hexagonal perovskite structure and are characterized by pseudo one-dimensional chains of alternating face-sharing trigonal prisms and octahedra. The structures of Ba(11)Rh(10)O(30) and Ba(32)Rh(29)O(87) were solved using the 4D superspace group approach in Jana2000. Ba(11)Rh(10)O(30), with a repeat of nine RhO(6) octahedra followed by one RhO(6) trigonal prism, contains the longest chain sequence of face-sharing octahedra known for this 2H-perovskite related family of oxides. A structural analysis of these two compounds revealed clear trends in metal-metal distances and octahedral heights not previously identified for this family of oxides. The application of these trends toward the structure of the all-octahedra-containing end member of the structural series, the hypothetical 2H-BaRhO(3), enabled a prediction of its rhodium-rhodium distance, octahedral height, and lattice parameters.

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Ahmed El Abed

Growth of Sr₆Rh₅O₁₅ Single Crystals from High-Temperature Solutions: Structure Determination Using the Traditional 3-D and the 4-D Superspace Group Methods and Magnetic Measurements on Oriented Single Crystals

Crystal Growth and Structure Determination of Barium Rhodates: Stepping Stones toward 2H−BaRhO₃

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Ahmed El Abed

Growth of Sr6Rh5O15 Single Crystals from High-Temperature Solutions: Structure Determination Using the Traditional 3-D and the 4-D Superspace Group Methods and Magnetic Measurements on Oriented Single Crystals

Crystal Growth and Structure Determination of Barium Rhodates: Stepping Stones toward 2H−BaRhO3

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Product

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Growth of Sr₆Rh₅O₁₅ Single Crystals from High-Temperature Solutions: Structure Determination Using the Traditional 3-D and the 4-D Superspace Group Methods and Magnetic Measurements on Oriented Single Crystals

Crystal Growth and Structure Determination of Barium Rhodates: Stepping Stones toward 2H−BaRhO₃