Therese Andersen

Andersen, T., Melvik, J., Gaserod, O., Alsberg, E., & Christensen, B. (2014). Ionically gelled alginate foams: Physical properties controlled by type, amount and source of gelling ions. CARBOHYDRATE POLYMERS, 99 , 249-256.

Andersen, T., Melvik, J., Gåserød, O., Alsberg, E., & Christensen, B. (2014). Ionically gelled alginate foams: Physical properties controlled by type, amount and source of gelling ions. Carbohydrate polymers, 99 , 249–256.

Andersen, T., Markussen, C., Dornish, M., Heier-Baardson, H., Melvik, J., Alsberg, E., & Christensen, B. (2014). In Situ Gelation for Cell Immobilization and Culture in Alginate Foam Scaffolds. TISSUE ENGINEERING PART A, 20 (3-4), 600-610.

Andersen, T., Markussen, C., Dornish, M., Heier-Baardson, H., Melvik, J., Alsberg, E., & Christensen, B. (2013). In situ gelation for cell immobilization and culture in alginate foam scaffolds. Tissue Engineering Part A, 20 (3-4), 600–610.

Andersen, T., Melvik, J., Gåserød, Olav, J., Alsberg, E., & Christensen, B. (2012). Ionically gelled alginate foams: physical properties controlled by operational and macromolecular parameters. Biomacromolecules, 13 (11), 3703–3710.

Sarpeshkar, R., Wattanapanitch, W., Arfin, S., Rapoport, B., Mandal, S., Baker, K., Fee, M., Musallam, S., & Andersen, T. (2008). Low-power circuits for brain-machine interfaces.. IEEE transactions on biomedical circuits and systems, 2 (3), 173-83.

Publications