Abstract
Nanoscale 3D printing is attracting attention as an alternative manufacturing technique for a variety of applications from electronics and nanooptics to sensing, nanorobotics, and energy storage. The constantly shrinking critical dimension in state-of-the-art technologies requires fabrication of complex conductive structures with nanometer resolution. Electrochemical techniques are capable of producing impurity-free metallic conductors with superb electrical and mechanical properties, however, true nanoscale resolution (<100 nm) remained unattainable. Here, we set new a benchmark in electrochemical 3D printing. By employing nozzles with dimensions as small as 1 nm, we demonstrate layer-by-layer manufacturing of 25 nm diameter voxels. Full control of the printing process allows adjustment of the feature size on-the-fly, printing tilted, and overhanging structures. On the basis of experimental evidence, we estimate the limits of electrochemical 3D printing and discuss the origins of this new resolution frontier. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000517376Publication status
publishedExternal links
Journal / series
Nano LettersVolume
Pages / Article No.
Publisher
American Chemical SocietySubject
meniscus-confined; electrodeposition; additive manufacturing; nanopipette; metal printingFunding
ETH-42 19-1 - Scanning Nanopore Microscopy for Single-Molecule Analysis (ETHZ)
174217 - Single Entities at High Magnification: Mapping, Measuring and Manipulating Nanoparticles (SNF)
190211 - Nanoscale 3D Printed Lithium Ion Battery: Towards a Revolution in Energy Storage (SNF)
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