3D lithography by rapid curing of the liquid instabilities at nanoscale

Simonetta Grilli, Sara Coppola, Veronica Vespini, Francesco Merola, Andrea Finizio, Pietro Ferraro

doi:10.1073/pnas.1110676108

<jats:p> In liquids realm, surface tension and capillarity are the key forces driving the formation of the shapes pervading the nature. The steady dew drops appearing on plant leaves and spider webs result from the minimization of the overall surface energy [Zheng Y, et al. (2010) <jats:italic>Nature</jats:italic> 463:640–643]. Thanks to the surface tension, the interfaces of such spontaneous structures exhibit extremely good spherical shape and consequently worthy optical quality. Also nanofluidic instabilities generate a variety of fascinating liquid silhouettes, but they are however intrinsically short-lived. Here we show that such unsteady liquid structures, shaped in polymeric liquids by an electrohydrodynamic pressure, can be rapidly cured by appropriate thermal treatments. The fabrication of many solid microstructures exploitable in photonics is demonstrated, thus leading to a new concept in 3D lithography. The applicability of specific structures as optical tweezers and as novel remotely excitable quantum dots–embedded microresonators is presented. </jats:p>

3D lithography by rapid curing of the liquid instabilities at nanoscale

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3D lithography by rapid curing of the liquid instabilities at nanoscale

説明

収録刊行物

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書き出し

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