Influence of Drying Temperature on Tensile and Bursting Strength of Bacterial Cellulose Biofilm

Abstract: The article presents an experimental study of mechanical properties of cellulose biofilm produced by bacterial fermentation process. Naturally derived biomaterial has great current and potential applications therefore the conditions of material preparation as well as control and prediction of mechanical properties is still a relevant issue. Bacterial cellulose was obtained as a secondary product from Kombucha drink. Presented technique for material preparation and drying is particularly simple and easy to acce… Show more

“…According to Subbiahdoss et al (2022) and Sederavičiūtė et al (2019), studies show that biofilm-forming bacteria (solid–liquid, liquid–liquid, and liquid–air) can impact the healthcare, pharmaceutical, food, and oil recovery industries [ 25 , 26 ]. as Additionally, having properties, such as high crystallinity, biocompatibility, non-toxicity, and high porosity, they make it a suitable material for technological applications in bioplastics, bioenergy, food fortification, and packaging [ 11 ].…”

Advances in the Production of Biomaterials through Kombucha Using Food Waste: Concepts, Challenges, and Potential

“…According to Subbiahdoss et al (2022) and Sederavičiūtė et al (2019), studies show that biofilm-forming bacteria (solid–liquid, liquid–liquid, and liquid–air) can impact the healthcare, pharmaceutical, food, and oil recovery industries [ 25 , 26 ]. as Additionally, having properties, such as high crystallinity, biocompatibility, non-toxicity, and high porosity, they make it a suitable material for technological applications in bioplastics, bioenergy, food fortification, and packaging [ 11 ].…”

Advances in the Production of Biomaterials through Kombucha Using Food Waste: Concepts, Challenges, and Potential

Characteristics of Bacterial Cellulose

Development and characterisation of bio-sheets from sugarcane bagasse as a potential packaging material