Dr. Nora Aramburu Ocariz
Dr. Nora Aranburu earned her BS in Chemistry from the University of the Basque Country (UPV/EHU) in 2008, and she obtained her PhD in the same university in 2015. She worked as a researcher at the Technology of Polymers Group of the UPV/EHU until 2019 and, since then, she is an Assistant Professor in Materials Science at the Department of Polymers and Advanced Materials: Physics, Chemistry and Technology of the University of the Basque Country. She is also a member of the Research Institute for Polymer Materials (POLYMAT).
Her research focuses on developing new materials based on polymer blends and nanocomposites by melt processing, establishing processing-structure-properties relationships. She has recently extended her interest in developing biopolymers with advanced performance, aiming for the eventual replacement of the conventional petrochemical polymers.Dr. Aranburu has extensive experience in the processing and thermal, morphological, and mechanical characterization of polymeric materials. This includes the use of standard equipment employed in processing (extruders and injection and compression molding machines), as well as several characterization techniques: differential scanning calorimetry (DSC), dynamic mechanical-thermal analysis (DMA), melt flow index (MFI), mechanical tests (tension, compression, bending, impact tests), scanning electron microscopy (SEM), the determination of electrical conductivity...
Publicaciones
Improving the properties of carbonated soybean oil-based non-isocyanate polyhydroxyurethane networks: Copolymerization versus hybridization with epoxy resin
N. Martin-Larrañaga, I. Razquin, N. Aramburu, O. Sanz, A. González and L. Irusta
Can Polyhydroxyurethane-Derived Covalent Adaptable Networks Provide Environmental Benefits in Composite Applications?
G. Seychal, P. Bron, O. Talon, N. Aramburu and J. Raquez
Fully Recyclable Pluripotent Networks for 3D Printing Enabled by Dissociative Dynamic Bonds
M. Caliari, F. Vidal, D. Mantione, G. Seychal, M. Campoy-Quiles, L. Irusta, M. Fernandez, X. de Pariza, T. Habets, N. Aramburu, J. Raquez, B. Grignard, A.J. Müller, C. Detrembleur and H. Sardon
En route to realistic sustainable structural fiber-reinforced polymers in a circular economy
G. Seychal, G. Perli, A. Goldberg, H. Sardón, N. Aramburu and J. Raquez
Development and applications of heterogeneous chiral bifunctional alkaloid-thioureas as recyclable organocatalysts
A. Pellicer, X. del Corte, N. Aramburu, J. Vicario, P. Toullec and A. Maestro
Ammonium Salts as Curing Agents to Obtain Ionic Epoxy Resins With a Thermoplastic-to-Thermoset Transition
I. Kurowska, L. Unanue, I. Calafel, D. Otaegui, J. Olmedo-Martínez, L. Irusta, D. Vinagre, N. Aramburu, N. Casado, I. Odriozola and D. Mecerreyes
From Waste to Wires: PBAT/Lignin Biocomposites Functionalized by a CO2 Laser for Transient Electronics
A. Moramarco, E. Sarotto, I. Otaegi, N. Aramburu, F. Cesano, V. Brunella, M. Zanetti and P. Bracco
Unlocking superior properties in polypropylene/polyethylene terephthalate (PP/PET) blends using an ethylene-butylene-acrylate terpolymer reactive compatibilizer
S. Coba-Daza, I. Otaegi, N. Aramburu, G. Guerrica-Echevarria, L. Irusta, A. González, L. Neubauer, G. Ramer, B. Lendl, G. Hubner, D. Cavallo, D. Tranchida and A.J. Müller
Emerging Polyhydroxyurethanes as Sustainable Thermosets: A Structure-Property Relationship
G. Seychal, C. Ocando, L. Bonnaud, J. De Winter, B. Grignard, C. Detrembleur, H. Sardon, N. Aramburu and J. Raquez


