Abstract
Functional hybrids comprising metallic nanostructures connected and protected by nonmetallic 2D materials are envisioned as miniaturized components for applications in optics, electronics, and magnetics. A promising strategy to build such elements is the direct writing of metallic nanostructures by focused electron beam induced processing (FEBIP) onto insulating 2D materials. Carbon nanomembranes (CNMs), produced via electron-induced crosslinking of self-assembled monolayers (SAMs), are ultrathin and flexible films; their thickness as well as their mechanical and electrical properties are determined by the specific choice of self-assembling molecules. In this work, functionalized CNMs are produced via electron beam induced deposition of Fe(CO)5 onto terphenylthiol SAMs. Clean iron nanostructures of arbitrary size and shape are deposited on the SAMs, and the SAMs are then crosslinked into CNMs. The functionalized CNMs are then transferred onto either solid substrates or onto grids to obtain freestanding metal/CNM hybrid structures. Iron nanostructures with predefined shapes on top of 1 nm thin freestanding CNMs are realized; they stay intact during the fabrication procedures and remain mechanically stable. Combining the ease and versatility of SAMs with the flexibility of FEBIP thus leads to a route for the fabrication of functional hybrid nanostructures.
Highlights
Functional hybrids comprising metallic nanostructures connected and electron-induced crosslinking of aromatic self-assembled monolayers (SAMs).[6]
Combining the ease and versatility of SAMs with the flexibility of focused electron beam induced processing (FEBIP) leads to a route be produced by mechanical stacking of Carbon nanomembranes (CNMs), graphene, and MoS2 sheets,[13] and stacks of CNMs and graphene were used to build all-carbon capacitors.[14]
Gölzhäuser Fakultät für Physik Universität Bielefeld gold deposits on top of a freestanding CNM can be used as plasmonic nanoresonators.[18]. This might open up the possibility for the fabrication of ultrathin optical devices. We expand on this topic by exploring resistless focused electron beam induced processing (FEBIP) to create metallic nanostructures on freestanding and nonconductive CNMs
Summary
Functional hybrids comprising metallic nanostructures connected and electron-induced crosslinking of aromatic self-assembled monolayers (SAMs).[6]. The metallic EBID deposit could be transferred successfully, leading to iron nanostructures on top of a freestanding 1.2 nm thin organic membrane as well as on a SiO2 bulk substrate.
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