The main achievement of the fellowship was the development of a new synthesis concept for the gold synthesis inside chiral cellulose scaffolds. The preliminary experiments demonstrate that the proposed method is a very straightforward and powerful approach, because it allows tuning plasmonic properties of gold and structural coloration of cellulose independently from each other, which to the best of our knowledge, has not been reported yet.
Exploiting natural materials can lead to a more sustainable use of resources, which is a key requirement for the sustainable development of modern society and industry. The development of metamaterials mimicking the natural self-organization of cellulose nanocrystals can open a new area in metamaterial design for super-resolution imaging, ultra-sensitive sensing and cloaking. The method developed in this action can be generalized to semiconductors and metallic materials, other than gold, which can potentially reveal new exciting applications in the fields of sustainable energy, medicine and electronics.