The past few decades have witnessed growing research interest in developing powerful
nanofabrication technologies for three-dimensional (3D) structures and devices to achieve …

Abstract Three-dimensional (3D) functional systems with sizes in the micro-and nanometer
regime are of growing importance across a wide range of electrical, optical, and biological …

Self‐folding broadly refers to the assembly of 3D structures by bending, curving, and folding
without the need for manual or mechanized intervention. Self‐folding is scientifically …

This study explores the usage of a neon focused ion beam (Ne FIB) as an alternative to the
traditional gallium focused ion beam (Ga FIB) for the task of milling into the III-V compound …

Linear polymers containing pillar [5] arenes as the pendant groups were designed and
synthesized via a ring-opening metathesis polymerization. Such polymers could form …

Current graphene‐based plasmonic devices are restricted to 2D patterns defined on planar
substrates; thus, they suffer from spatially limited 2D plasmon fields. Here, 3D graphene …

Abstract 3D nanostructures hold the key to building custom devices with special and flexible
functionalities. Ion beam‐induced bending and folding are used for the fabrication of 3D …

Due to its one atom thickness, optical absorption (OA) in graphene is a fundamental and
challenging issue. Practically, the patterned graphene-dielectric-metal structure is commonly …

Helium ion microscopy has attracted many applications in imaging, nanofabrication and
analysis. One important field of study in nanofabrication using ion beam is the milling or …

The limited spatial coverage of the plasmon enhanced near-field in 2D graphene ribbons
presents a major hurdle in practical applications. In this study, diverse self-assembled 3D …