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Magazine articles
Nanotechnology for Forest Product, Part 1, Solutions!, July 2005, Vol. 88(7) (276KB)
Nanotechnology for Forest Product, Part 1, Solutions!, July 2005, Vol. 88(7) (276KB)
Magazine articles
Coating Pigments: From Size and Shape to Nanotech, Solutions!, September 2005, Vol. 88(9) (152 KB)
Coating Pigments: From Size and Shape to Nanotech, Solutions!, September 2005, Vol. 88(9) (152 KB)
Magazine articles
Nano Chemistry and the Power of "Z" Give Printers an Edge, Solutions!, December 2005, Vol. 88(12) (160 KB)
Nano Chemistry and the Power of "Z" Give Printers an Edge, Solutions!, December 2005, Vol. 88(12) (160 KB)
Magazine articles
Steam savings from nanochemistry, Solutions!, November 2004, Vol. 87(11) (130KB)
Steam savings from nanochemistry, Solutions!, November 2004, Vol. 87(11) (130KB)
Magazine articles
Nanotechnology for Forest Products, PART 2, Solutions!, August 2005, Vol. 88(8) (408KB)
Nanotechnology for Forest Products, PART 2, Solutions!, August 2005, Vol. 88(8) (408KB)
Magazine articles
Nanotechnology conference targets research options, Solution
Nanotechnology conference targets research options, Solutions!, February 2005, Vol. 88(2) (117KB)
Journal articles
Magazine articles
Papermaking properties of bacterial nanocellulose produced from mother of vinegar, a waste product after classical vinegar production, TAPPI Journal April 2020
ABSTRACT: Bacterial nanocellulose (BNC) has gained a lot of attention in recent years due to its nano-size-derived properties. Although it is essentially chemically similar to plant-derived cellulose, it has smaller size and is enriched in free hydroxyl groups, which greatly improve mechanical properties of reinforced paper. However, although BNC has some unique features, it comes at a high price. In this paper, we introduce a new solution for BNC production. We have isolated bacterial nanocellulose directly from agro-industrial waste—mother of vinegar—and used it in the production of paper sheets. We show here that paper sheets made with the addition of only 10% bacterial nanocellulose from mother of vinegar substantially improved basic mechanical as well as printing properties of paper.
Magazine articles
Nanoparticle prospects & perspectives, TAPPI JOURNAL, May 2000, Vol. 83(5)
Nanoparticle prospects & perspectives, TAPPI JOURNAL, May 2000, Vol. 83(5)
Magazine articles
Imagine more in coatings, TAPPI JOURNAL, May 2000, Vol. 83(5)
Imagine more in coatings, TAPPI JOURNAL, May 2000, Vol. 83(5)
Journal articles
Magazine articles
TAPPI Journal Summaries, Paper360º May/June 2018
TAPPI Journal Summaries, Paper360º May/June 2018