- RIUMA Principal
- Investigación
- Fisiología Humana, Histología Humana, Anatomía Patológica y Educación Física y Deportiva - (FHEFD)
- FHEFD - Contribuciones a congresos científicos
- Listar FHEFD - Contribuciones a congresos científicos por autor
Listar FHEFD - Contribuciones a congresos científicos por autor "Arenas, Ernest"
Mostrando ítems 1-4 de 4
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Graphene derivative scaffolds facilitate in vitro cell survival and maturation of dopaminergic SN4741 cells
Rodríguez-Losada, Noela; Wendelbo, Rune; García-Fernández, María Inmaculada; Pavía-Molina, José; Martinez-Montañez, Elisa; Lara-Muñoz, José Pablo; Arenas, Ernest; Aguirre-Gómez, José Ángel[et al.] (2014-11-26)The emerging carbon nanomaterial Graphene (G), in the form of scaffold structure, has an efficient bioconjugation with common biomolecules and activates cell differentiation of neuronal stem cells, providing a promising ... -
Graphene derivatives as scaffold for ex vivo survival and maturation of dopaminergic SN4741 cells.
Rodríguez-Losada, Noela; Wendelbo, Rune; García-Fernández, María Inmaculada; Pavía-Molina, José; Martín-Montañez, Elisa; Lara-Muñoz, José Pablo; Arenas, Ernest; Aguirre-Gómez, José Ángel[et al.] (2014-09-01)Carbon nanomaterial Graphene (G) can form a three-dimensional porous structure with efficient bioconjugation and cell differentiation properties, providing a promising scaffold for neural regeneration. Aims: To study this ... -
Positive biocompatibility of several graphene derivatives with dopaminergic cells at long term culture
Rodríguez-Losada, Noela; Wendelbo, Rune; Arenas, Ernest; Aguirre-Gómez, José Ángel (2015-10-28)The emerging carbon nanomaterial graphene (G) and its oxidized derivative graphene oxide (GO) have recently gained considerable attention in biomedical applications such as cancer therapy or biosensors. It has for example ... -
Positive biocompatibility of several graphene derivatives with dopaminergic cells at long term culture
Rodríguez-Losada, Noela; Wendelbo, Rune; Arenas, Ernest; Aguirre-Gómez, José Ángel (2015-09-23)Carbon nanomaterial graphene (G) can form a three-dimensional porous structure with efficient bioconjugation and cell differentiation properties, providing a promising scaffold for neural regeneration. Aims: To study this ...