Abstract
Advances in nanofabrication technology have allowed us to create high-level nanostructured materials that were previously unattainable [...]
Highlights
Advances in nanofabrication technology have allowed us to create high-level nanostructured materials that were previously unattainable
This review article focuses on introducing a strategy to realize 3D nanostructured inorganic or organic/inorganic composites by combining an optical 3D nanofabrication technique called proximity-field nanopatterning (PnP) with traditional electroplating
Lee et al study the mechanical stability of micro/nanostructured membranes widely used as deposition/etch masks or microfluidic filters [2]
Summary
Advances in nanofabrication technology have allowed us to create high-level nanostructured materials that were previously unattainable. New or superphysical properties emerging from well-controlled nanostructures have attracted the attention of many researchers working on advanced materials and next-generation devices. This Special Issue aims to introduce recent studies related to the synthesis/processing of nanostructured materials for diverse applications. Research or review articles published in this Special Issue can be broadly divided into three categories according to their field of focus: (i) fabrication of nanostructured materials, (ii) physical properties of nanostructured materials, and (iii) application of nanostructured materials to devices. Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
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