RT Generic T1 Tunable structuring of nanocellulose-based sustainable lubricants by an external electric field [Dataset] A1 Fernández Silva, Samuel David A1 Delgado Canto, Miguel Ángel A1 García Pérez, María A1 Roman Fercheluc, Claudia A1 García Morales, Moisés A1 Roman Fercheluc, Claudia AB This research examines sustainable nanocellulose-based lubricants made by dispersing fibrillated and crystalline nanocelluloses in castor oil. The study explores how electric fields and shear forces affect their rheological behavior and microstructure, using advanced microscopy and rheometry techniques. Findings show that lower nanocellulose concentrations form flexible string-like structures responsive to electric fields, while higher concentrations create rigid, entangled networks. Pre-shear intensity influences structural changes, altering the lubricants' mechanical properties under different electric fields. PB Elsevier YR 2025 FD 2025 LK https://hdl.handle.net/10272/27245 UL https://hdl.handle.net/10272/27245 LA eng NO Tunable structuring of nanocellulose-based sustainable lubricants by an external electric field. [Dataset]. AM (Depósito de Investigación de la Universidad de Huelva). https://hdl.handle.net/10272/25046 NO Project "Advancing Toward Smart Lubrication Control Through Sustainable Electrorheological Fluids": SMARTFRICTION, (PID2023-151761NB-I00), funded by MICIU/AEI/10.13039/501100011033 and by FEDER, EU under the 2023 Knowledge Generation projects call. It is led from the University of Huelva, and mainly developed at Center for Research in Chemical Products and Process Technology (Pro2TecS). Main objectives: generating scientific and technical knowledge that will advance the innovative concept of intelligent lubrication control using sustainable electrorheological fluids; developing a new generation of electroactive biolubricants that allow instant, on-demand control of their rheological and tribological properties through the action of an external electric field. DS Repositorio Institucional de la Universidad de Huelva RD 3 jul 2026