I couldn't resist sharing this with a community likely to appreciate (or at least, be entertained with) an unironic technofetishism around food. 3-D printing, lasers, and a chicken dinner, what's...
Additive manufacturing of food is a method of creating three-dimensional edible products layer-by-layer. While food printers have been in use since 2007, commercial cooking appliances to simultaneously cook and print food layers do not yet exist. A key challenge has been the spatially controlled delivery of cooking energy. Here, we explore precision laser cooking which offers precise temporal and spatial control over heat delivery and the ability to cook, broil, cut and otherwise transform food products via customized software-driven patterns, including through packaging. Using chicken as a model food, we combine the cooking capabilities of a blue laser (λ = 445 nm), a near-infrared (NIR) laser (λ = 980 nm), and a mid-infrared (MIR) laser (λ = 10.6 μm) to broil printed chicken and find that IR light browns more efficiently than blue light, NIR light can brown and cook foods through packaging, laser-cooked foods experience about 50% less cooking loss than foods broiled in an oven, and calculate the cooking resolution of a laser to be ~1 mm. Infusing software into the cooking process will enable more creative food design, allow individuals to more precisely customize their meals, disintermediate food supply chains, streamline at-home food production, and generate horizontal markets for this burgeoning industry.
I couldn't resist sharing this with a community likely to appreciate (or at least, be entertained with) an unironic technofetishism around food. 3-D printing, lasers, and a chicken dinner, what's not to like?
I couldn't resist sharing this with a community likely to appreciate (or at least, be entertained with) an unironic technofetishism around food. 3-D printing, lasers, and a chicken dinner, what's not to like?