On April 9, 2022, researchers from the University of Groningen’s Stratingh Institute for Chemistry and the Department of Chemistry, Organic and Bioorganic Chemistry at the University of Graz, published a study in the journal Green Chemistry titled “A molecular motor from lignocellulose.” The study explores lignin’s use as the largest natural source of functionalized aromatics on the planet and its inherent structural features. The authors showcase the synthesis of a novel light-driven unidirectional motor from a specific aromatic platform chemical that can be obtained through a reductive catalytic fractionation strategy of lignocellulose. Taking into account the principles of green chemistry, the synthetic path used in the study aims to maintain the intrinsic functionality of the lignin-derived platform molecule. The molecular motor is synthesized for the first time from exclusively renewable building blocks sourced from renewable feedstock. According to the study, this concept can be applied as a general strategy that opens paths for future machines, motors, and nanoscience made from sustainable sources. This strategy would benefit the environment and decrease expenses related to hazardous waste management.