Kocjan, AndrazSchmidt, RainerLazar, AnaPrado-Gonjal, JesusPrado Gonjal, Jesús De La PazKovac, JanezLogar, MancaMompean, Francisco JGarcía-Hernández, MarRuiz-Hitzky, EduardoWicklein, Bernd2024-01-192024-01-192018-04-27Kocjan, A., Schmidt, R., Lazar, A., Prado-Gonjal, J., Kovač, J., Logar, M., ... & Wicklein, B. (2018). In situ generation of 3D graphene-like networks from cellulose nanofibres in sintered ceramics. Nanoscale, 10(22), 10488-10497.2040-336410.1039/c8nr00717ahttps://hdl.handle.net/20.500.14352/93984Está depositada la versión postprint del artículoEstablishing a 3D electrically percolating network in an insulating matrix is key to numerous engineering and functional applications. To this end, using hydrophobic carbon nanofillers is tempting, but still results in suboptimal performance due to processing challenges. Here, we demonstrate how natural cellulose nanofibres can be in situ transformed into graphene-like sheets connected to a 3D network enhancing both the transport and the mechanical properties of sintered engineering ceramics. The network architecture also permits the decoupling of electrical and thermal conductivities, which represents a major obstacle in attaining efficient thermoelectric materials. We foresee that our transferable methodology can pave the way for the use of natural nanofibres to unravel the full potential of 3D graphene-like networks to accelerate development in fields like energy and telecommunications.engAttribution-NonCommercial 4.0 Internationaljournal article2040-3372https://pubs.rsc.org/en/content/articlelanding/2018/nr/c8nr00717aopen access538.9Wall carbon nanotubesThermal-conductivityNanocellulosePerformanceCompositesFísica del estado sólido2211 Física del Estado Sólido