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1. Bacterial Cellulose Nanofibers

   Cellulose is among the world’s wealthiest biopolymers and primarily has a wood, plant, and microbial source. To date, cellulose nanofibers (CNFs) are...

   Selma Hamimed, Nissem Abdeljelil, ... Ahmed Barhoum in Handbook of Nanocelluloses

   Reference work entry 2022
   

2. Bacterial Cellulose Nanofibers

   Cellulose is among the world’s wealthiest biopolymers and primarily has a wood, plant, and microbial source. To date, cellulose nanofibers (CNFs) are...

   Selma Hamimed, Nissem Abdeljelil, ... Ahmed Barhoum in Handbook of Nanocelluloses

   Living reference work entry 2022
   

3. Bacterial Cellulose for Drug Delivery: Current Status and Opportunities

   Bacterial cellulose is a pure highly crystalline nanofibrous form of cellulose that is produced as a three-dimensional porous network. Owing to these...

   Shivakalyani Adepu, Sailaja Bodrothu, Mudrika Khandelwal in New Horizons in Metallurgy, Materials and Manufacturing

   Chapter 2023
   

4. Perceiving Grown Bacterial Cellulose

   Biofabricated and grown materials are an emergent trend in the design discipline. The push towards the re-search of innovative and sustainable...

   Flavia Papile, Patrizia Bolzan, ... Barbara Pollini in Developments in Design Research and Practice II

   Conference paper 2023
   

5. Potential of Bacterial Cellulose for Sustainable Cities: A Review and Bibliometric Analysis on Bacterial Cellulose

   This book chapter focuses on bacterial cellulose (BC), with many recent contemporary studies, an explanation of BC producers and synthesis...

   İrem Kale, Onur Kırdök, ... E. Esin Hameş in A Sustainable Green Future

   Chapter 2023
   

6. Exploring the evolution of bacterial cellulose precursors and their potential use as cellulose-based building blocks

   Natural polymers have found increased use in a wider range of applications due to their less harmful effects. Notably, bacterial cellulose has gained...

   Francesca Mauro, Brunella Corrado, ... Paolo Antonio Netti in Scientific Reports

   Article Open access 21 May 2024
   

7. Plasma surface treatment of bacterial cellulose to increase hydrophobicity

   Bacterial cellulose presents itself as an alternative to traditional textiles due to its versatility, aesthetics, mechanical similarity to leather...

   Alline Araujo Inacio Rolim, Teresa Tromm Steffen, ... Danielle Bond in Cellulose

   Article 15 April 2024
   

8. MYCOlullose: Fabricating Biohybrid Material System with Mycelium-Based Composites and Bacterial Cellulose

   In an attempt to become more sustainable, architects have increasingly begun employing biomaterials in design practices. The current ethos merely...

   Natalia B. Piórecka, Peter Scully, ... Marcos Cruz in Design for Rethinking Resources

   Conference paper 2024
   

9. Bacterial Cellulose Sustainable Material for Textiles

   This book presents the potential of bacterial cellulose in the textile and fashion industry. Most of the earlier work on the bacterial cellulose was...

   Subramanian Senthilkannan Muthu, R. Rathinamoorthy in Sustainable Textiles: Production, Processing, Manufacturing & Chemistry

   Book 2021
   

10. Bacterial Cellulose for Improving Wrinkle Resistance of Cotton Fabric

    Cotton fabric, which is a natural cellulosic material, has many advantages. However, it is prone to wrinkling easily. On the other hand, Bacterial...

    Niloofar Rafizadeh Zaeem, Ramin Khajavi, ... Elahe Abed in Fibers and Polymers

    Article 01 June 2024
    

11. Bacterial-Cellulose-Based Nanocomposites

    Abstract

    Antibacterial biocomposites based on bacterial cellulose, chitosan, and fusidic acid are obtained in the form of films, hydrogels, and...

    V. V. Revin, E. V. Liyaskina, ... R. G. Vasilov in Nanobiotechnology Reports

    Article 01 February 2023
    

12. Current research and advances in the molecular aspect of bacterial cellulose synthesis with special emphasis on the production of bacterial cellulose from waste and its food applications

    Bacteria produce cellulose in the form of an extracellular matrix known for its ultrapure existence. Due to its distinctive features, such as high...

    Manoj Kumar, Vinod Kumar, Saurabh Saran in Cellulose

    Article 27 March 2024
    

13. Production and characterization of bacterial cellulose from kombucha-fermented soy whey

    Bacterial cellulose (BC) is a high-strong cellulose with high-purity produced by bacteria. The aim of this study was to explore the feasibility of...

    Xue Feng, Zhiwen Ge, ... Mingsheng Dong in Food Production, Processing and Nutrition

    Article Open access 03 February 2024
    

14. Potential Application of Agro-Industrial Byproduct for Bacterial Cellulose Production; Its Challenges and Emerging Trends for Food Packaging

    Most packaging used today is made of plastic, which is produced from fossil-based polymers. In terms of its ease of processing and cheapness, plastic...

    Khatarina Meldawati Pasaribu, Nanang Masruchin, Myrtha Karina in Biomass Conversion and Sustainable Biorefinery

    Chapter 2024
    

15. State and Prospects of Improving the Methods of Production and Use of Bacterial Cellulose (A Review)

    Abstract

    No other material in the world around us can equal bacterial cellulose in terms of the application scope. This is a kind of unique material...

    E. A. Rogova, Yu. D. Alashkevich, ... E. G. Kiselev in Russian Journal of Bioorganic Chemistry

    Article 25 December 2023
    

16. Cellulose and Cellulose Derivative-Based Films

    The food packaging industry demands safe and environment-friendly packaging materials to protect and assure the quality of products. The polymers...

    Panthavur Nairveetil Anjali, Sowriappan John Don Bosco, ... Kappat Valiyapeediyekkal Sunooj in Polysaccharide Based Films for Food Packaging: Fundamentals, Properties and Applications

    Chapter 2024
    

17. Solid-state NMR reveals a structural variation from the Iβ polymorphic form in bacterial cellulose

    Solid-state ¹³ C nuclear magnetic resonance (NMR) spectroscopy is a powerful tool for identifying the various allomorphs of cellulose, for example...

    Darren H. Brouwer, Janelle G. Mikolajewski in Cellulose

    Article 09 November 2023
    

18. Manufacture of a New Sustainable Material from Bacterial Cellulose from Organic Waste in a Circular Economy Framework

    The circular economy introduces a novel approach to sustainable production and consumption, emphasizing collaboration to develop innovative business...

    Cristina Moreno-Díaz, Piera Maresca, ... Salvador González-Arranz in Advances in Remanufacturing

    Conference paper 2024
    

19. Applications of Bacterial Cellulose-Based Composite Materials in Hard Tissue Regenerative Medicine

    Background:

    Cartilage, bone, and teeth, as the three primary hard tissues in the human body, have a significant application value in maintaining...

    Yingyu Liu, Haiyan Liu, ... Bing Li in Tissue Engineering and Regenerative Medicine

    Article 09 September 2023
    

20. Chitosan oligosaccharide-loaded bacterial cellulose membrane for hemostatic dressing

    Hemorrhagic shock is the leading cause of preventable deaths in traumatic accidents, emphasizing the significance of hemostasis-promoting materials...

    Nghi Thi-Phuong Nguyen, Huy Hoang Nguyen, ... Thi-Hiep Nguyen in Cellulose

    Article 07 November 2023