Documents publiés en "2022"

Département de génie chimique

Zhou, X., Rajeev, A., Subramanian, A., Li, Y., Rossetti, N., Natale, G., Lodygensky, G. A., & Cicoira, F. (2022). Erratum to Self-healing, stretchable and highly adhesive hydrogels for epidermal patch electrodes [Acta Biomaterialia 139 (2022) 296-306]. Acta Materialia, 145, 436-436. Lien externe

Zhou, X., Rajeev, A., Subramanian, A., Li, Y., Rossetti, N., Natale, G., Lodygensky, G. A., & Cicoira, F. (2022). Self-healing, stretchable, and highly adhesive hydrogels for epidermal patch electrodes. Acta Biomaterialia, 139, 296-306. Lien externe

Département de génie électrique

Pierre, W. C., Zhang, E., Londoño, I., De Leener, B., Lesage, F., & Lodygensky, G. A. (2022). Non-invasive in vivo MRI detects long-term microstructural brain alterations related to learning and memory impairments in a model of inflammation-induced white matter injury. Behavioural Brain Research, 428, 113884 (13 pages). Lien externe

Département de génie informatique et génie logiciel

Pierre, W. C., Zhang, E., Londoño, I., De Leener, B., Lesage, F., & Lodygensky, G. A. (2022). Non-invasive in vivo MRI detects long-term microstructural brain alterations related to learning and memory impairments in a model of inflammation-induced white matter injury. Behavioural Brain Research, 428, 113884 (13 pages). Lien externe

Institut de génie biomédical

Pierre, W. C., Zhang, E., Londoño, I., De Leener, B., Lesage, F., & Lodygensky, G. A. (2022). Non-invasive in vivo MRI detects long-term microstructural brain alterations related to learning and memory impairments in a model of inflammation-induced white matter injury. Behavioural Brain Research, 428, 113884 (13 pages). Lien externe