New Lithium Copper Borates with BO3 Triangles: Li6CuB4O10, Li3CuB3O7, Li8Cu7B14O
32, and Li2CU9B12O28

Kuratieva, N. V.; Bànki, M.; Tsirlin, A. A.; Eckert , J.; Ehrenberg, H.; Mikhailova, D.

doi:10.1021/ic4015724

Item

ITEM ACTIONSEXPORT

Add to Basket

Please note that a newer version of this item is available:
https://pure.mpg.de/pubman/item/item_1949831_4

DetailsSummary

Released

Journal Article

New Lithium Copper Borates with BO₃ Triangles: Li₆CuB₄O₁₀, Li₃CuB₃O₇, Li₈Cu₇B₁₄O₃₂, and Li₂CU₉B₁₂O₂₈

MPS-Authors

/persons/resource/persons126888

Tsirlin, A. A.
Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

/persons/resource/persons126756

Mikhailova, D.
Daria Mikhailova, Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

External Resource

No external resources are shared

Fulltext (restricted access)

There are currently no full texts shared for your IP range.

Fulltext (public)

There are no public fulltexts stored in PuRe

Supplementary Material (public)

There is no public supplementary material available

Citation

Kuratieva, N. V., Bànki, M., Tsirlin, A. A., Eckert, J., Ehrenberg, H., & Mikhailova, D. (2013). New Lithium Copper Borates with BO₃ Triangles: Li₆CuB₄O₁₀, Li₃CuB₃O₇, Li₈Cu₇B₁₄O₃₂, and Li₂CU₉B₁₂O₂₈. Inorganic Chemistry, 52(24), 13974-13983. doi:10.1021/ic4015724.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0017-C191-2

Abstract

Crystal structures of three new lithium copper borates, Li3CuB3O7, Li8Cu7B14O32, and Li2Cu9B12O28, and a new Li6CuB4O10 polymorph were solved by single-crystal X-ray diffraction. In all of the structures, the boron cations form BO3 triangles, which are connected with each other and with copper polyhedra only via corners in Li6CuB4O10 and Li3CuB3O7 and via both corners and edges in Li8Cu7B14O32 and Li2Cu9B12O28. The Li3CuB3O7 and Li8Cu7B14O32 compounds were synthesized as pure samples with only trace amounts of impurities; hence, their magnetic properties could be investigated and analyzed in terms of underlying magnetic couplings. Other compositions always represented multiphase mixtures. Li3CuB3O7 features infinite Cu,O chains formed by Cu2O6 units consisting of edge-shared CuO4 squares. Together with two apical oxygen atoms with long interatomic Cu-O distances of 2.7-2.8 angstrom, the Cu2O6 units form chains extended along the a-axis. These pseudochains are responsible for strong anisotropic thermal expansion behavior. The temperature dependence of the magnetization between 4 and 380 K for Li3CuB3O7 could be fit well by a spin-dimer model. The magnetic susceptibility of Li8Cu7B14O32 showed a more complex temperature dependence, with two different Curie-Weiss regimes in the temperature range of 2-380 K.