A new study at Monash University illustrates how substrates affect strong electronic interactions in two-dimensional metal-organic frameworks. Materials with strong electronic interactions can have ...
Researchers at City College of New York physicist Vinod M. Menon's Laboratory for Nano and Micro Photonics (LaNMP) have ...
Materials that combine topological electronic properties and quantum magnetism are of high current interest, for the quantum many-body physics that can unfold in them and for possible applications in ...
(Nanowerk News) Materials with enhanced thermal conductivity are critical for the development of advanced devices to support applications in communications, clean energy and aerospace. But in order to ...
Oak Ridge researchers used pressure to manipulate magnetism in thin film materials used to enhance performance in electronic devices. They used neutron scattering at Oak Ridge National Laboratory’s ...
Two‐dimensional magnetism in rare earth silicides encompasses a class of materials in which layers or ultrathin films of compounds formed between silicon and rare earth elements exhibit long‐range ...
A new study illustrates how substrates affect electronic interactions in 2D metal-organic frameworks. With electronic properties tuneable by electrical charge, mechanical strain, and hybridization, ...
Dirac matter is an intriguing class of materials with rather peculiar properties: electrons in these materials behave as if they had no mass. The most prominent Dirac material is graphene, but further ...
(Nanowerk News) A new study at Monash University illustrates how substrates affect strong electronic interactions in two-dimensional metal-organic frameworks (npj Computational Materials, "Correlation ...
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