Øyvind Eriksen

Position: Laboratory Manager Degree: PhD Activities: Paper physics, production of paper and application of nanocellulose in paper. Competence in chemical and physical properties of fibre based products. Project manager of the COMPETENCE project. Email: oyvind.eriksen@rise-pfi.no Phone: +47 452 14 106

Publications:

• Rodionova, G., Hoff, B., Lenes, M., Eriksen, Ø., Gregersen, Ø.W. (2013).
  Gas-phase esterification of microfibrillated cellulose (MFC) films.
  Cellulose 20 (3): 1167 – 1174.

• Rodionova, G., Roudot, S., Eriksen, Ø., Männle, F., and Gregersen, Ø.W. (2012).
  The formation and characterization of sustainable layered films incorporating microfibrillated cellulose (MFC).
  BioRes. 7 (3): 3690 – 3700.

• Hii, C, Gregersen, Ø.W, Chinga-Carrasco, G. and Eriksen, Ø. (2012).
  The effect of newsprint furnish composition and sheet structure on wet pressing efficiency. Nordic Pulp & Paper Research Journal 27 (4): 790 – 797.

• Hii, C, Gregersen, Ø.W, Chinga-Carrasco, G., Eriksen, Ø. and Toven, K. (2012).
  The web structure in relation to the furnish composition and shoe press pulse profiles during wet pressing.
  Nordic Pulp & Paper Research Journal 27(4): 798 – 805.

• Hii, C, Gregersen, Ø.W, Chinga-Carrasco, G. and Eriksen, Ø. (2012).
  The effect of MFC on the pressability and paper properties of TMP and GCC based sheets. Nordic Pulp & Paper Research Journal 27(2): 388 – 396.

• Rodionova, G. Eriksen, Ø. and Gregersen, Ø.W. (2012).
  TEMPO-oxidized cellulose nanofiber films: Effect of surface morphology on water resistance. Cellulose 19(4): 1115 – 1123.

• Rodionova, G., Saito, T., Lenes, M., Eriksen, Ø., Gregersen, Ø.W., Kuramae, R., Isogai, A. (2012).
  TEMPO-Mediated Oxidation of Norway Spruce and Eucalyptus Pulps: Preparation and Characterization of Nanofibers and Nanofiber Dispersions.
  Journal of polymers and the Environment 21(1): 207-214.

• Rodionova, G. , Saito, T., Lenes, M., Eriksen, Ø., Gregersen, Ø.W., Fukuzumi, H., Isogai, A. (2012).
  Mechanical and oxygen barrier properties of films prepared from fibrillated dispersions of TEMPO-oxidized Norway spruce and Eucalyptus pulps.
  Cellulose 19(3): 705 – 711.

• Rodionova, G., Lenes, M., Eriksen, Ø. and Gregersen, Ø. W. (2011).
  Surface chemical modification of microfibrillated cellulose: improvement of barrier properties for packaging applications.
  Cellulose 18 (1): 127 – 134.

• Eriksen Ø., Syverud, K. and Gregersen, Ø.W. (2008).
  The use of microfibrillated cellulose produced from kraft pulp as strength enhancer in TMP paper.
  Nordic Pulp & Paper Research Journal 23(3): 299 – 304.