In order to defy climate change and the bark beetle, more deciduous trees are being planted in Swiss forests. If possible, their wood should be used several times before it ends up as firewood, thus releasing the previously bound CO₂ back into the atmosphere. At present, however, hardwood is still too often used directly for heating. Innovative ideas for a more sustainable cascade use are therefore needed. One possibility is to equip the natural material with new properties – in technical terms: functionalities – and transform it into magnetic, waterproof or electricity-generating wood, for instance.

A team led by fungal researcher Francis Schwarze from Empa's Cellulose & Wood Materials lab in St. Gallen is currently pursuing another idea for a new type of composite material based on hardwood: luminous wood. In addition to applications in technical fields, the luminous wood could be processed into designer furniture or jewelry.

This has been achieved thanks to a parasite: The honey fungus is a pathogen that causes white rot in trees and is therefore actually a wood pest. Some species produce the natural substance luciferin, which is stimulated to glow in a two-stage enzymatic process. Wood permeated by fungal threads therefore emits a green light.

"Naturally luminous wood was first described around 2,400 years ago by the Greek philosopher Aristotle," says Schwarze. Strictly speaking, the interwoven structure of fungus and wood can be described as a natural biohybrid, a combination of living materials. "Artificially produced composite materials of this kind would be interesting for many types of application," says the Empa researcher. But what nature seems to achieve effortlessly has so far been (too) challenging for biotechnology. Now, for the first time, the Empa team has succeeded in inducing and controlling the process in the laboratory.