Electronic Supplementary Material
Antimicrobial porous hybrids consisting of bacterial
nanocellulose and silver nanoparticles
Sabrina Berndt†, Falko Wesarg†, Cornelia Wiegand♦, Dana Kralisch‡*•, Frank A. Müller†•
†
‡
Friedrich-Schiller-University of Jena, Institute of Materials Science and Technology (IMT),
Loebdergraben 32, 07743 Jena, Germany
Friedrich-Schiller-University of Jena, Institute of Pharmacy, Department of Pharmaceutical
Technology, Otto-Schott-Strasse 41, 07745 Jena, Germany
♦
University Medical Center Jena, Department of Dermatology and Allergology, Erfurter
Strasse 35, 07743 Jena, Germany
•
Member of the Jena Center for Soft Matter
*
Corresponding author
[email protected]
Tel.: +49-3641- 949951
Fax: +49-3641- 949942
ESM 1 EDX spectrum taken from the top surface of an Ag5 hybrid
bottom surface
Ag20
Ag10
Ag5
Ag2.5
BNC
top surface
ESM 2 Silver content in the top surface (a, c, e, g, and i) and bottom surface (b, d, f, h, and j) of BNC-AgNPs
hybrids calculated from the SEM micrographs using ImageJ
bottom surface
Ag5-3h
Ag5-2h
Ag5-1h
top surface
ESM 3 Silver content in the top surface (a, c, and e) and bottom surface (b, d, and f) of Ag5 hybrids prepared for
different reaction times. Calculations were made from SEM micrographs using ImageJ
bottom surface
Ag20
Ag10
Ag5
Ag2.5
BNC
top surface
ESM 4 SEM micrographs of BNC-AgNP hybrids taken from the top (a, c, e, g, and i) and bottom surface (b, d, f,
h, and j). All images were taken with 10.000x magnification