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Symmetry classification of magnetic orders using oriented spin space groups
Abstract Magnetism has seen substantial progress in recent decades, driven largely by its potential for next-generation storage devices. However, the classification of magnetic orders, even for fundamental concepts such as ferromagnetism (FM) and antiferromagnetism (AFM), remains a topic of active evolution, particularly with the discovery of unconventional magnetic materials and advances in antiferromagnetic spintronics1,2,3,4.
Access to luminescent mesophases of gold(I) chiral complexes by thermal or mechanic stimuli. The role of the tertiary carbon
Access to luminescent mesophases of gold(I) chiral complexes by thermal or mechanic stimuli. The role of the tertiary carbon Chiral gold(I) isocyanide complexes [Au(p-C6F4OR1)(p-CNC6H4(O2CC6H4(OR2)] with R1, R2 or both being (R)-2-octyl, display an interesting and unprecedented response to mechanical or thermal stress. For all the complexes, heating leads to formation of Sm mesophases identified by POM, DSC, and X-ray diffraction studies.
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