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JP, Canejo, Borges JP, GODINHO MH, Brogueira P, Teixeira PIC, and Terentjev EM. "Helical Twisting of Electrospun Liquid Crystalline Cellulose Micro- and Nanofibers." Advanced Materials. 20 (2008): 4821-+. AbstractWebsite
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Morelli, Sabrina, Antonella Piscioneri, Simona Salerno, Ricardo Matos, Paula I. P. Soares, Jorge Carvalho Silva, João Paulo Borges, and Loredana De Bartolo. "Hollow Fiber and Nanofiber Membranes in Bioartificial Organs and Tissue Engineering." Hollow Fibers and Nanofibers in Membrane Science. Jenny Stanford Publishing, 2022. 409-460. Abstract
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SR, Gomes, Rodrigues GM, Martins GG, Henriques CM, Borges JP, and Silva JC How fibroblasts respond to different biomaterials: comparative adhesion and proliferation studies. Vol. 6. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 6., 2012. Abstract
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Soares, P. I. P., C. Echeverria, AC Baptista, C. F. C. João, S. N. Fernandes, A. P. C. Almeida, JC Silva, M. H. Godinho, and J. P. Borges Hybrid polysaccharide-based systems for biomedical applications. Hybrid Polymer Composite Materials: Applications., 2017. AbstractWebsite

Hybrid materials have been widely studied for structural applications. Polysaccharide-based fibers, especially cellulosic fibers, have been explored in the last two decades as substitutes of the traditional reinforcements made of glass or carbon fibers due to their mechanical properties. However, their biocompatibility, biodegradability, and chemistry have attracted the researchers and new developments in the field of smart and functional materials arise in diverse applications. This chapter will focus on the biomedical applications of polysaccharide-based smart and functional materials, namely those concerning biosensors and actuators, theranostic systems, and tissue-engineering applications. Special attention will be given to cellulose- and chitin/chitosan-based hybrid materials because these are the two most abundant polysaccharides and probably the most promising for the development of hybrid materials for biomedical applications. Biomimetic strategies for the development of smart and functional hybrid materials will also be highlighted. © 2017 Elsevier Ltd All rights reserved.

CMS, Ranito, Oliveira FAC, and Borges JP. "Hydroxyapatite foams for bone replacement." Bioceramics 17. Vol. 17. KEY ENGINEERING MATERIALS, 17. 2005. 341-344. Abstract
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Dias, Inês J. G., Sofia A. Pádua, Eduardo A. Pires, João PMR Borges, Jorge C. Silva, and Carmo M. Lança. "Hydroxyapatite-Barium Titanate Biocoatings Using Room Temperature Coblasting." 13.4 (2023): 579. Abstract
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