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Realization of Lieb lattice in covalent-organic frameworks with tunable topology and magnetism.


ABSTRACT: Lieb lattice has been predicted to host various exotic electronic properties due to its unusual Dirac-flat band structure. However, the realization of a Lieb lattice in a real material is still unachievable. Based on tight-binding modeling, we find that the lattice distortion can significantly determine the electronic and topological properties of a Lieb lattice. Importantly, based on first-principles calculations, we predict that the two existing covalent organic frameworks (COFs), i.e., sp2C-COF and sp2N-COF, are actually the first two material realizations of organic-ligand-based Lieb lattice. Interestingly, the sp2C-COF can experience the phase transitions from a paramagnetic state to a ferromagnetic one and then to a Néel antiferromagnetic one, as the carrier doping concentration increases. Our findings not only confirm the first material realization of Lieb lattice in COFs, but also offer a possible way to achieve tunable topology and magnetism in organic lattices.

SUBMITTER: Cui B 

PROVIDER: S-EPMC6940388 | biostudies-literature | 2020 Jan

REPOSITORIES: biostudies-literature

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Realization of Lieb lattice in covalent-organic frameworks with tunable topology and magnetism.

Cui Bin B   Zheng Xingwen X   Wang Jianfeng J   Liu Desheng D   Xie Shijie S   Huang Bing B  

Nature communications 20200102 1


Lieb lattice has been predicted to host various exotic electronic properties due to its unusual Dirac-flat band structure. However, the realization of a Lieb lattice in a real material is still unachievable. Based on tight-binding modeling, we find that the lattice distortion can significantly determine the electronic and topological properties of a Lieb lattice. Importantly, based on first-principles calculations, we predict that the two existing covalent organic frameworks (COFs), i.e., sp<sup  ...[more]

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