Publicações
Improvement of Processability Characteristics of Porcelain-Based Formulations Toward the Utilization of 3D Printing Technology
Pires, LSO; Afonso, DG; Fernandes, MHFV; Oliveira, JMMD
2023, 3D PRINTING AND ADDITIVE MANUFACTURING, 10, 2, 298-309.
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Controlling properties of ceramic formulations for porcelain robocasting
Pires, LSO; Luís, J; Fernandes, MHV; Oliveira, M
2023, CERAMICS INTERNATIONAL, 49, 3, 4764-4774.
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Hydrogel Bioinks of Alginate and Curcumin-Loaded Cellulose Ester-Based Particles for the Biofabrication of Drug-Releasing Living Tissue Analogs
Carvalho, JPF; Teixeira, MC; Lameirinhas, NS; Matos, FS; Luís, JL; Pires, L; Oliveira, H; Oliveira, M; Silvestre, AJD; Vilela, C; Freire, CSR
2023, ACS APPLIED MATERIALS & INTERFACES.
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Nanofibrillated cellulose/gellan gum hydrogel-based bioinks for 3D bioprinting of skin cells
Lameirinhas, NS; Teixeira, MC; Carvalho, JPF; Valente, BFA; Pinto, RJB; Oliveira, H; Luís, JL; Pires, L; Oliveira, JM; Vilela, C; Freire, CSR
2023, INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 229, 849-860.
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Alginate-Lysozyme Nanofibers Hydrogels with Improved Rheological Behavior, Printability and Biological Properties for 3D Bioprinting Applications
Teixeira, MC; Lameirinhas, NS; Carvalho, JPF; Valente, BFA; Luis, J; Pires, L; Oliveira, H; Oliveira, M; Silvestre, AJD; Vilela, C; Freire, CSR
2022, NANOMATERIALS, 12, 13.
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Freeform 3D printing using a continuous viscoelastic supporting matrix
Patricio, SG; Sousa, LR; Correia, TR; Gaspar, VM; Pires, LS; Luis, JL; Oliveira, JM; Mano, JF
2020, BIOFABRICATION, 12, 3.
ISBN:
1758-5090
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Biofabrication of glass scaffolds by 3D printing for tissue engineering
Pires, LSO; Fernandes, MHFV; de Oliveira, JMM
2018, INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 98, 09-Dec, 2665-2676.
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Crystallization kinetics of PCL and PCL-glass composites for additive manufacturing
Pires, LSO; Fernandes, MHFV; de Oliveira, JMM
2018, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 134, 3, 2115-2125.
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