Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussavertaisarvioitu

Standard

Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear. / Gane, Patrick.

International Conference on Nanotechnology for Renewable Materials. 2017. s. 123-137.

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussavertaisarvioitu

Harvard

Gane, P 2017, Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear. julkaisussa International Conference on Nanotechnology for Renewable Materials. Sivut 123-137, Montréal, Kanada, 05/06/2017.

APA

Gane, P. (2017). Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear. teoksessa International Conference on Nanotechnology for Renewable Materials (Sivut 123-137)

Vancouver

Gane P. Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear. julkaisussa International Conference on Nanotechnology for Renewable Materials. 2017. s. 123-137

Author

Bibtex - Lataa

@inbook{850ace62efc646ad8fcd13a091c21622,
title = "Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear",
author = "Patrick Gane",
year = "2017",
language = "English",
pages = "123--137",
booktitle = "International Conference on Nanotechnology for Renewable Materials",

}

RIS - Lataa

TY - CHAP

T1 - Acid dissociation of surface bound water on cellulose nanofibrils: calcium carbonate nanoparticle probe under the application of ultralow shear

AU - Gane, Patrick

PY - 2017

Y1 - 2017

M3 - Chapter

SP - 123

EP - 137

BT - International Conference on Nanotechnology for Renewable Materials

ER -

ID: 17108642