The secret of the tree lies in so-called evaporative cooling. This is the same principle mammals use to regulate their body temperature.

In a low-pressure vacuum chamber, water evaporates rapidly at room temperature. As each water molecule evaporates, it takes with it a small amount of heat, causing the remaining water to become increasingly colder, eventually cooling to below zero degrees Celsius. At that point the water is still liquid, but supercooled. As soon as the ultra-thin stream (about as thin as a human hair: 16 micrometres) hits the already formed layer of ice, it freezes instantly.

Layer by layer, a complex ice sculpture is created – complete with branches and details. No support material is needed, and there's no waste. This 8-centimetre-tall tree was finished in 26 minutes. And when you turn off the vacuum pump, everything melts neatly back into clean water.

• Time-lapse video of Christmas tree being printed
• Time-lapse video of melting process Christmas tree

The same process also works for other shapes: cones, pillars, even leaning structures without support. This method isn't just fun items such as frozen ornaments during the Christmas season – its scientific value lies in its visibility. You can see phase transitions, heat transfer and the role of pressure – all in real time through the transparent vacuum chamber.

Moreover, the researchers say there are practical applications: the technique opens doors for biology (pure ice structures as scaffolding for tissue) and microfluidics (forming intricate channels by melting away the ice). And on Mars? It's cold there, and the atmosphere is thin – perfect conditions for using the same technique to build structures with local water.

Related publications

• Scientific article about the underlying science behind the ice Christmas tree
• Blog in Nature about the 3D printed Christmas tree