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Parallel 3D Nanoprinting
In article number 2308734, Jicheng Feng and co‐workers develop a fundamentally different 3D nanoprinting technique, which transforms electric fields into nanodrawing tools. This transformation is realized by electrically biasing three parallel planes with the middle one having periodic perforations. Manipulating potentials applied to each plane enables the programmable printing...
Printing metallic nanoscale features remains challenging, but particularly important for making electronic devices. In existing techniques, complex operation, and material parameters significantly limit printing resolution, materials development, and real‐time control. Alternatively, aerosols and ions are synergized to print nanoscale metals, but the ions turn out to be instable, thereby making the...
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