Browsing by Author "Palza Cordero, Humberto"
Now showing items 1-7 of 7
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Acuña, Daniel; Gutiérrez Figueroa, Francisco Javier; Silva F., Rodrigo; Palza Cordero, Humberto; Núñez Vásquez, Alvaro; Düring, Gustavo (Nature, 2022)Auxetics are an unusual family of materials that, for instance, when stretched in a particular direction will exhibit an expansion of the dimensions that are perpendicular to the applied stress; however, despite many known ...
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Gutiérrez, Omar; Palza Cordero, Humberto (Elsevier, 2015)The goal of this work is to analyze the effect of carbon nanotubes (CNTs) on the pyrolysis of either high density polyethylene (PE) or polypropylene (PP) matrices by using both kinetic thermogravimetric analyses (TGA) ...
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Bejarano, Julián; Boccaccini, Aldo R.; Covarrubias, Cristian; Palza Cordero, Humberto (MDPI, 2020)Biodegradable polymer scaffolds filled with bioactive glass particles doped with therapeutic metal ions are a novel and promising strategy to repair critical-sized bone defects. In this study, scaffolds based on a poly (D, ...
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Bejarano, Julian; Benavente, Rosario; Pérez, Ernesto; Wilhelm, Manfred; Quijada Abarca, Juan; Palza Cordero, Humberto (WILEY-VCH Verlag GmbH & Co., 2013)
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Bejarano, Julian; Detsch, Rainer; Boccaccini, Aldo R.; Palza Cordero, Humberto (Wiley, 2017)Novel multifunctional scaffolds for bone regeneration can be developed by incorporation of bioactive glasses (BG) doped with therapeutic and antibacterial metal ions, such as copper (Cu) and zinc (Zn), into a biodegradable ...
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Bejarano Narváez, Julián; Caviedes Fernández, Pablo; Palza Cordero, Humberto (IOP, 2015)Metal doping of bioactive glasses based on ternary 60SiO2–36CaO–4P2O5 (58S) and quaternary 60SiO2–25CaO–11Na2O–4P2O5 (NaBG) mol% compositions synthesized using a sol–gel process was analyzed. In particular, the effect ...
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Barraza Sandoval, María Belén; Olate Moya, Felipe; Montecinos, Gino; Ortega Palma, Jaime; Rosenkranz, Andreas; Tamburrino Tavantzis, Aldo; Palza Cordero, Humberto (Taylor & Francis, 2022)The rice leaf, combining the surface properties of lotus leaves and shark skin, presents outstanding superhydrophobic properties motivating its biomimesis. We created a novel biomimetic rice-leaf superhydrophobic surface ...