3D bioprinting of functional human skin: production and in vivo analysis N Cubo, M Garcia, JF Del Cañizo, D Velasco, JL Jorcano Biofabrication 9 (1), 015006, 2016 | 477 | 2016 |
A novel plasma-based bioink stimulates cell proliferation and differentiation in bioprinted, mineralized constructs T Ahlfeld, N Cubo-Mateo, S Cometta, V Guduric, C Vater, A Bernhardt, ... ACS applied materials & interfaces 12 (11), 12557-12572, 2020 | 88 | 2020 |
Methylcellulose–a versatile printing material that enables biofabrication of tissue equivalents with high shape fidelity T Ahlfeld, V Guduric, S Duin, AR Akkineni, K Schütz, D Kilian, ... Biomaterials science 8 (8), 2102-2110, 2020 | 85 | 2020 |
Can 3D bioprinting be a key for exploratory missions and human settlements on the Moon and Mars? N Cubo-Mateo, S Podhajsky, D Knickmann, K Slenzka, T Ghidini, ... Biofabrication 12 (4), 043001, 2020 | 38 | 2020 |
Design of thermoplastic 3d-printed scaffolds for bone tissue engineering: Influence of parameters of “hidden” importance in the physical properties of scaffolds N Cubo-Mateo, LM Rodríguez-Lorenzo Polymers 12 (7), 1546, 2020 | 34 | 2020 |
Wound and skin healing in space: the 3D bioprinting perspective N Cubo-Mateo, M Gelinsky Frontiers in Bioengineering and Biotechnology 9, 720217, 2021 | 27 | 2021 |
Assessment of a PCL-3D printing-dental pulp stem cells triplet for bone engineering: An in vitro study R Rosales-Ibáñez, N Cubo-Mateo, A Rodríguez-Navarrete, ... Polymers 13 (7), 1154, 2021 | 13 | 2021 |
Recent advancements in data-driven methodologies for the fault diagnosis and prognosis of marine systems: A systematic review C Velasco-Gallego, BN De Maya, CM Molina, I Lazakis, NC Mateo Ocean Engineering 284, 115277, 2023 | 9 | 2023 |
Generation of controlled micrometric fibers inside printed scaffolds using standard FDM 3D printers E del Barrio Cortés, C Matutano Molina, L Rodríguez-Lorenzo, ... Polymers 15 (1), 96, 2022 | 7 | 2022 |
Methylcellulose—a versatile printing material that enables biofabrication of tissue equivalents with high shape fidelity. Biomater Sci 8: 2102–2110 T Ahlfeld, V Guduric, S Duin, AR Akkineni, K Schütz, D Kilian, ... | 5 | 2020 |
Selection and optimization of a bioink based on PANC-1-plasma/alginate/methylcellulose for pancreatic tumour modelling C Banda Sánchez, N Cubo Mateo, L Saldaña, A Valdivieso, J Earl, ... Polymers 15 (15), 3196, 2023 | 2 | 2023 |
Potential benefits from 3D printing and dental pulp stem cells in cleft palate treatments: an in vivo model study R Rosales Ibáñez, N Cubo Mateo, LM Rodríguez-Lorenzo, ... Biomedical Research Network, 2019 | 2 | 2019 |
Geospatial Analysis of Scour in Offshore Wind Farms C Matutano Molina, C Velasco-Gallego, N Portillo-Juan, ... Energies 16 (15), 5616, 2023 | 1 | 2023 |
Analysis of the angular influence in the spatial study of mechanical displacements in highly anisotropic media L Hernández–Álvarez, C Negreira, A Ramos, NC Mateo, LM Rodríguez, ... Mechanics of Materials 163, 104094, 2021 | | 2021 |
Modeling of Pancreatic Tumors using 3D Bioprinting C Banda Sánchez, N Cubo Mateo, J Frutos Díaz-Alejo, J Earl, ... European Society for Biomaterials, 2021 | | 2021 |
The use of low intensity ultrasounds as a novel therapeutic tool in pancreatic cancer. JF Díaz-Alejo, IG Gómez, AR Fernández, L Rodríguez-Lorenzo, ... Pancreatology 20, S132, 2020 | | 2020 |
Our Future? Space Colonization and Exploration LM Lara, G Leger, RD Duffard, I González Gómez, O Prieto-Ballesteros, ... Consejo Superior de Investigaciones Científicas (España), 2020 | | 2020 |
Design and development of new bioinks and bioprinting strategies to produce simplified equivalents of human tissues, for earth and space exploration applications NC Mateo Universidad Complutense de Madrid, 2020 | | 2020 |
Bioprinting: From a DIY Revolution to Patients N Cubo-Mateo, LM Rodríguez-Lorenzo O’Reilly Media, 2018 | | 2018 |
Enseñanza transversal en la ESO a partir de robótica básica N Cubo Mateo | | 2016 |