Toward a Better Understanding of Shock Imprinting with Polymer Molds Using a Combination of Numerical Analysis and Experimental Research

Abstract: In the last decade, a new technique has been developed for the nanoimprinting of thin-metal foils using laser-induced shock waves. Recent studies have proposed replacing metal or silicone molds with inexpensive polymer molds for nanoimprinting. In addition, explosive-derived shock waves provide deeper imprinting than molds, greatly simplifying the application of this technology for mass production. In this study, we focused on explosive-derived shock waves, which persist longer than laser-induced shock waves. … Show more

“…Nanoimprinting technology is a revolutionary method combining MIT with nanotechnology and nanomaterials, which fabricated MIP with nanostructures (NMIPs) like nanoparticles, fibers, nanowires, nanotubes, hybrid nanocomposites, etc., as presented in Figure 9 . [ 127 , 128 , 129 , 130 ] Different from bulk MIPs, NMIPs possess higher surface‐to‐volume ratio, thus providing easier‐accessed imprinted cavities for recognition and binding kinetics of templates. Meanwhile, almost all binding sites of NMIPs show similar affinity and specific selection to target templates.…”

Bio‐Inspired Imprinting Materials for Biomedical Applications

“…Nanoimprinting technology is a revolutionary method combining MIT with nanotechnology and nanomaterials, which fabricated MIP with nanostructures (NMIPs) like nanoparticles, fibers, nanowires, nanotubes, hybrid nanocomposites, etc., as presented in Figure 9 . [ 127 , 128 , 129 , 130 ] Different from bulk MIPs, NMIPs possess higher surface‐to‐volume ratio, thus providing easier‐accessed imprinted cavities for recognition and binding kinetics of templates. Meanwhile, almost all binding sites of NMIPs show similar affinity and specific selection to target templates.…”

Bio‐Inspired Imprinting Materials for Biomedical Applications

Uniformity of planar shock waves generated by vaporizing foil actuator and its application to microfabrication

Dynamic compression of a polymer stamper using high-impulse underwater shock waves to imprint a sub-micrometer structure on a metal plate surface