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    Finding a Bravais lattice with higher symmetry from lattice parameters of a supercell

    New search for: Yoyo Hinuma
    New search for: Hiroyuki Ozaki

    We present an advanced algorithm that systematically identifies Bravais lattices from diffraction data, such as powder X-ray, as these data are crucial for new material development. The algorithm efficiently generates an ‘augmented lattice’ with more lattice points than the original lattice. An ‘acceptable cell’ is defined for each Bravais lattice, quantifying the tolerance needed for accurate structural description despite experimental uncertainties. The algorithm was tested on lithium battery cathode materials and halide organometallic perovskites and demonstrated significant potential in enhancing material analysis and development through precise structural identification. This concise approach offers a robust framework for material scientists, facilitating rapid advancements in the field.

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    Finding a Bravais lattice with higher symmetry from lattice parameters of a supercell

    New search for: Yoyo Hinuma
    New search for: Hiroyuki Ozaki

    We present an advanced algorithm that systematically identifies Bravais lattices from diffraction data, such as powder X-ray, as these data are crucial for new material development. The algorithm efficiently generates an ‘augmented lattice’ with more lattice points than the original lattice. An ‘acceptable cell’ is defined for each Bravais lattice, quantifying the tolerance needed for accurate structural description despite experimental uncertainties. The algorithm was tested on lithium battery cathode materials and halide organometallic perovskites and demonstrated significant potential in enhancing material analysis and development through precise structural identification. This concise approach offers a robust framework for material scientists, facilitating rapid advancements in the field.

    Access

    Download

    Finding a Bravais lattice with higher symmetry from lattice parameters of a supercell

    New search for: Yoyo Hinuma
    New search for: Hiroyuki Ozaki

    We present an advanced algorithm that systematically identifies Bravais lattices from diffraction data, such as powder X-ray, as these data are crucial for new material development. The algorithm efficiently generates an ‘augmented lattice’ with more lattice points than the original lattice. An ‘acceptable cell’ is defined for each Bravais lattice, quantifying the tolerance needed for accurate structural description despite experimental uncertainties. The algorithm was tested on lithium battery cathode materials and halide organometallic perovskites and demonstrated significant potential in enhancing material analysis and development through precise structural identification. This concise approach offers a robust framework for material scientists, facilitating rapid advancements in the field.

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    Download

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    Title:

    Finding a Bravais lattice with higher symmetry from lattice parameters of a supercell

    Contributors:

    Yoyo Hinuma (author) / Hiroyuki Ozaki (author)

    Published in:

    Science and Technology of Advanced Materials: Methods, Vol 4, Iss 1 (2024)

    Publication date:

    2024

    ISSN:

    2766-0400

    DOI:

    https://doi.org/10.1080/27660400.2024.2383167

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Diffraction , Bravais lattice , experimental errors , lattice parameters , structural identification , supercell , Materials of engineering and construction. Mechanics of materials , TA401-492

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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