Publications by Josefin Illergård
Refereegranskade
Artiklar
[1]
C. Chen et al., "Influence of Cellulose Charge on Bacteria Adhesion and Viability to PVAm/CNF/PVAm-Modified Cellulose Model Surfaces," Biomacromolecules, 2019.
[2]
A. Ottenhall et al., "Cellulose-based water purification using paper filters modified with polyelectrolyte multilayers to remove bacteria from water through electrostatic interactions," Environmental Science : Water Research & Technology, 2018.
[3]
J. Henschen et al., "Bacterial adhesion to polyvinylamine-modified nanocellulose films," Colloids and Surfaces B : Biointerfaces, vol. 151, pp. 224-231, 2017.
[4]
C. Chen et al., "Effect of cationic polyelectrolytes in contact-active antibacterial layer-by-layer functionalization," Holzforschung, vol. 71, no. 7-8, pp. 649-658, 2017.
[5]
A. Ottenhall, M. Ek and J. Illergård, "Water Purification Using Functionalized Cellulosic Fibers with Nonleaching Bacteria Adsorbing Properties," Environmental Science and Technology, vol. 13, pp. 7616-7623, 2017.
[6]
J. Henschen et al., "Contact-active antibacterial aerogels from cellulose nanofibrils," Colloids and Surfaces B : Biointerfaces, vol. 146, pp. 415-422, 2016.
[7]
J. Illergård, L. Wågberg and M. Ek, "Contact-active antibacterial multilayers on fibres : a step towards understanding the antibacterial mechanism by increasing the fibre charge," Cellulose, vol. 22, no. 3, pp. 2023-2034, 2015.
[8]
J. Illergård et al., "Tailoring the effect of antibacterial polyelectrolyte multilayers by choice of cellulosic fiber substrate," Holzforschung, vol. 67, no. 5, pp. 573-578, 2013.
[9]
J. Illergård et al., "Biointeractive antibacterial fibres using polyelectrolyte multilayer modification," Cellulose, vol. 19, no. 5, pp. 1731-1741, 2012.
[10]
J. Illergård, L. Wågberg and M. Ek, "Bacterial-growth inhibiting properties of multilayers formed with modified polyvinylamine," Colloids and Surfaces B : Biointerfaces, vol. 88, no. 1, pp. 115-120, 2011.
[11]
J. Illergård et al., "Interactions of Hydrophobically Modified Polyvinylamines : Adsorption Behavior at Charged Surfaces and the Formation of Polyelectrolyte Multilayers with Polyacrylic Acid," ACS Applied Materials & Interfaces, vol. 2, no. 2, pp. 425-433, 2010.
Konferensbidrag
[12]
J. Illergård, L. Wågberg and M. Ek, "Biointeractive fibers : Antibacterial cellulose via polymer adsorption," in 16th ISWFPC( International symposium on wood, fiber, and pulping chemistry) , June 8-10 , 2011, Tianjin,P.R. China, 2011.
[13]
J. Illergård, L. Wågberg and M. Ek, "Biointeractive fibres-antibacterial cellulose via polymer adsorption," in 16th International Symposium on Wood, Fiber and Pulping Chemistry - Proceedings, ISWFPC, 2011, pp. 1378-1379.
[14]
M. Ek, J. Illergård and L. Wågberg, "Biointeractive fibres : A sustainable way of fighting bacteria by using antibacterial cellulosic fibres," in 239th ACS National Meeting, San Francisco, CA, United States, March 21-25, 2010, 2010.
[15]
J. Illergård, L. Wågberg and M. Ek, "Biointeractive fibres with antibacterial properties," in Vinnova programme conferense, Bergenvik, 2010, 2010.
[16]
J. Illergård, M. Ek and L. Wågberg, "Biointeractive fibres with antibacterial properties : a multilayer build-up study," in 10 th EWLP: European Workshop on Lignocellulosics and Pulp, Stockholm, Sweden, August 25–28, 2008, 2008.
[17]
J. Illergård et al., "Making biointeractive fibres : Build-up of antibacterial multilayers studied by SPAR," in 235th American Chemical Society (ACS) National meeting, April 6-11, New Orleans, USA, 2008.
Icke refereegranskade
Artiklar
[18]
C. Chen et al., "Evaluation of Antibacterial functionalizations of CNF/PVAm multilayer modified cellulose fibre and surface studies on silica model surface," Abstracts of Papers of the American Chemical Society, vol. 253, 2017.
[19]
A. Ottenhall et al., "Layer-by-layer modification of cellulosic materials for green antibacterial materials," Abstracts of Papers of the American Chemical Society, vol. 253, 2017.
[20]
J. Henschen et al., "Antibacterial aerogels from cellulose nanofibrils," Abstracts of Papers of the American Chemical Society, vol. 251, 2016.
[21]
M. Ek et al., "Biointeractive fibers with antibacterial properties," Abstracts of Papers of the American Chemical Society, vol. 251, 2016.
[22]
J. Henschen et al., "Antibacterial surface modification of nanocellulosic materials," Abstracts of Papers of the American Chemical Society, vol. 249, 2015.
[23]
J. Illergård, L. Wågberg and M. Ek, "Contact-active antibacterial polyelectrolyte multilayers : The influence of substrate," Abstracts of Papers of the American Chemical Society, vol. 245, pp. 515-PMSE, 2013.
Kapitel i böcker
[24]
J. Illergård, L. Wågberg and M. Ek, "Antibacterial Fibres," in Pulp Production and Processing: From Papermaking to High-Tech Products, Valentin Popa Ed., 1st ed. : smithers rapra, 2013, pp. 413-438.
Avhandlingar
[25]
J. Illergård, "The creation of antibacterial fibres through physical adsorption of polyelectrolytes," Doctoral thesis Stockholm : KTH Royal Institute of Technology, Trita-CHE-Report, 2012:11, 2012.
[26]
J. Illergård, "Development of New Bacteria-Reducing Surfaces," Licentiate thesis Stockholm : KTH, Trita-CHE-Report, 2009:25, 2009.
Övriga
[27]
J. Illergård et al., "Antibacterial Polyelectrolyte Multilayers on Cellulosic Pulp Fibres," (Manuscript).
[28]
A. Ottenhall et al., "Bacteria adsorbing emergency water filters based on polyelectrolyte modified paper," (Manuscript).
[29]
J. Henschen et al., "Bacterial adhesion to polyvinyl-amine-modified nanocellulose films," (Manuscript).
[30]
J. Illergård et al., "The Antibacterial Effect of Contact-Active Multilayers : A Mechanistic Approach," (Manuscript).
[31]
A. Ottenhall, J. Illergård and M. Ek, "Water purification using functionalized cellulose with non-leaching bacteria adsorbing properties," (Manuscript).
Senaste synkning med DiVA:
2024-04-29 00:17:00