The scaling down of meta‐atoms or metamolecules (collectively denoted as metaunits) is a
long‐lasting issue from the time when the concept of metamaterials was first suggested …

Abstract 2D nanoscale patterns have been extensively investigated for various applications
including information storage devices, non‐volatile memory devices, chemical or biological …

Self-assembled metamaterials constitute a promising platform to achieving bulk and
homogenous optical materials that exhibit unusual effective medium properties. For many …

Nanofabrication has limited most optical metamaterials to 2D or, often with multiple
patterning steps, simple 3D meta-atoms that typically have limited built-in tunability. Here …

Research in advanced materials is continuously driving modern technologies forward. For
example, semiconductors have laid the foundation for today's electronics industry. While …

Thermodynamically driven self-assembly offers a direct route to organize individual
nanoscopic components into three-dimensional structures over a large scale,,. The most …

Recently, two rich and exciting research fields, layered two-dimensional (2D) materials and
metamaterials, have started overlapping. Metamaterials are artificial, engineered materials …

The bottom-up fabrication of facile, lower-cost, larger areas optical metamaterials (OMMs) is
expected to provide important benefits for applications in stealth technology and …

Anchoring nanoscale building blocks, regardless of their shape, into specific arrangements
on surfaces presents a significant challenge for the fabrication of next-generation chip …

Metamaterials, artificial composite structures with exotic material properties, have emerged
as a new frontier of science involving physics, material science, engineering and chemistry …