A Self-Organized Anisotropic Liquid-Crystal Plasmonic Metamaterial

A composite material that leads to self organization of mesogen-coated gold nanospheres is synthesized and shows enhanced anisotropic optical properties due to synergistic effects of the mesogens intrinsic birefringence and its ability to drive the self-assembly process into highly anisotropic architectures with densely packed nanospheres. Such nanoengineered matter sustains a response beyond that achievable by its individual constituents, i.e., a metamaterial.

A Self-Organized Anisotropic Liquid-Crystal Plasmonic Metamaterial

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Long live(d) CsPbBr3 superlattices: colloidal atomic layer deposition for structural stability

Controlled Formation of Nanoribbons and Their Heterostructures via Assembly of Mass-Selected Inorganic Ions

Nanogels with Metal‐Organic Cages as Functional Crosslinks

Long live(d) CsPbBr3 superlattices: colloidal atomic layer deposition for structural stability

Controlled Formation of Nanoribbons and Their Heterostructures via Assembly of Mass-Selected Inorganic Ions

Nanogels with Metal‐Organic Cages as Functional Crosslinks