The discovery, design and development of materials are critically linked to advances in
many areas of research, and optics is no exception. Recently, the spectral region in which …

Transparent conductors are essential elements in an array of optoelectronic devices. The
most commonly used transparent conductor–indium tin oxide (ITO) suffers from issues …

Flexible transparent electrodes are in significant demand in applications including solar
cells, light-emitting diodes, and touch panels. The combination of high optical transparency …

Recent years have witnessed a rapid development in the field of structural coloration, colors
generated from the interaction of nanostructures with light. Compared to conventional color …

Electrically conductive thin‐film materials possessing high transparency are essential
components for many optoelectronic devices. The advancement in the transparent …

Nanophotonic devices, composed of metals, dielectrics, or semiconductors, enable precise
and high-spatial-resolution manipulation of electromagnetic waves by leveraging diverse …

Recent advances in fabrication and processing methods have spurred many breakthroughs
in the field of nanostructures that provide novel ways of manipulating light interaction on a …

Reducing electromagnetic interference (EMI) across a broad radio frequency band is crucial
to eliminate adverse effects of increasingly complex electromagnetic environment. Current …

In the era of fifth-generation networks and Internet-of-Things, the use of multiband
electromagnetic radiation shielding is highly desirable for next-generation electronic …

Few materials have been identified as high-performance transparent conductors in the
visible regime (400–700 nm). Even fewer conductors are known to be transparent in …