These days it seems you can make anything with 3D printers—but not if you want to make it out of glass. The main complication is that the printers create structures that are rather coarse, at least at the millimeter scale and smaller. For glass, such a rough surface hinders the transmission of light.
Now Bastian Rapp at the Karlsruhe Institute of Technology in Germany and colleagues have used off-the-shelf chemicals and a commercially available 3D printer to create transparent structures out of glass that is nearly indistinguishable from pure fused silica glass. The team’s big advance was dissolving large amounts of silicon dioxide nanoparticles—between 30% and 45% by volume—in their polymer “ink.” A $7500 stereolithography printer composed the desired structure layer by layer using the silica-infused polymer. After burning off the polymer, Rapp’s team sintered together the enduring nanoparticles at 1300 °C to create the final solid product (such as the one above). Both Raman spectroscopy and x-ray photoelectron spectroscopy confirmed that the printed glass, which was highly transparent for wavelengths above 350 nm or so, had nearly identical optical properties to fused silica (graphs below).
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