Citations (42)
Keep up to date with the latest research on this topic with citation updates for this article.
Articles from other publishers (42)
Rajni Kumari, Mesevilhou Sakhrie, Manish Kumar, V. Vivekanand & Nidhi Pareek. (2023) Enhanced production of bacterial cellulose employing banana peel as a cost-effective nutrient resource. Brazilian Journal of Microbiology 54:4, pages 2745-2753.
Crossref
Crossref
Efri Mardawati, Devi Maulida Rahmah, Nova Rachmadona, Elen Saharina, Tanti Yulianti Raga Pertiwi, Siti Aisyah Zahrad, Wahyu Ramdhani, Yoice Srikandace, Diah Ratnaningrum, Een Sri Endah, Dian Andriani, Kuan Shiong Khoo, Khatarina Meldawati Pasaribu, Rahmat Satoto & Myrtha Karina. (2023) Pineapple core from the canning industrial waste for bacterial cellulose production by Komagataeibacter xylinus. Heliyon 9:11, pages e22010.
Crossref
Crossref
Qiu Weihua, Ren Hong & Wang Qianhui. (2022) Production of bacterial cellulose from enzymatic hydrolysate of kitchen waste by fermentation with kombucha. Biomass Conversion and Biorefinery 13:16, pages 14485-14496.
Crossref
Crossref
Guilong Yan, Yuzhen Zhou, Jianguo Wu, Ci Jin, Liqin Zhao & Wei Wang. (2023) Novel Strain of Paenibacillus phyllosphaerae CS-148 for the Direct Hydrolysis of Raw Starch into Glucose: Isolation and Fermentation Optimization. Applied Biochemistry and Biotechnology.
Crossref
Crossref
Gülnihal Bozdağ, Orkun Pinar, Oğuzhan Gündüz & Dilek Kazan. (2021) Valorization of pea pod, celery root peel, and mixed-vegetable peel as a feedstock for biocellulose production from Komagataeibacter hansenii DSM 5602. Biomass Conversion and Biorefinery 13:9, pages 7875-7886.
Crossref
Crossref
Lúcia F. A. Amorim, Lengwan Li, Ana P. Gomes, Raul Fangueiro & Isabel C. Gouveia. (2023) Sustainable bacterial cellulose production by low cost feedstock: evaluation of apple and tea by-products as alternative sources of nutrients. Cellulose 30:9, pages 5589-5606.
Crossref
Crossref
Marcello Brugnoli, Salvatore La China, Federico Lasagni, Flora Valeria Romeo, Andrea Pulvirenti & Maria Gullo. (2023) Acetic acid bacteria in agro-wastes: from cheese whey and olive mill wastewater to cellulose. Applied Microbiology and Biotechnology 107:11, pages 3729-3744.
Crossref
Crossref
Badiaa Essghaier, Nesrine Mallat, Khaoula Khwaldia, Filomena Mottola, Lucia Rocco & Hédia Hannachi. (2023) Production and Characterization of New Biosurfactants/Bioemulsifiers from Pantoea alhagi and Their Antioxidant, Antimicrobial and Anti-Biofilm Potentiality Evaluations. Molecules 28:4, pages 1912.
Crossref
Crossref
Chhavi Sharma & Puneet Pathak. 2023. Handbook of Biopolymers. Handbook of Biopolymers
57
94
.
Anna-Christina Amason, Aditya Meduri, Shivani Rao, Nicole Leonick, Bhagyashree Subramaniam, Johnson Samuel & Richard A. Gross. (2022) Bacterial Cellulose Cultivations Containing Gelatin Form Tunable, Highly Ordered, Laminae Structures with Fourfold Enhanced Productivity. ACS Omega 7:51, pages 47709-47719.
Crossref
Crossref
Huanyu Zhou, Jing Wang, Heng Yin, Chuandong Wang, Linying Zhang, Xiaojun Zhang, Nan Qiao & Dayu Yu. (2022) Bacterial cellulose production from wastewater and the influence of its porosity on the fluorescence intensity of prepared carbon dots. Biochemical Engineering Journal 187, pages 108633.
Crossref
Crossref
Aggarapu Chandana, Sarada Prasanna Mallick, Pritam Kumar Dikshit, Bhisham Narayan Singh & Ajay Kumar Sahi. (2022) Recent Developments in Bacterial Nanocellulose Production and its Biomedical Applications. Journal of Polymers and the Environment 30:10, pages 4040-4067.
Crossref
Crossref
Vadim V. Zefirov, Vera S. Sadykova, Ilya P. Ivanenko, Olga P. Kuznetsova, Ivan E. Butenko, Tatiana I. Gromovykh & Olga I. Kiselyova. (2022) Liquid-crystalline ordering in bacterial cellulose produced by Gluconacetobaсter hansenii on glucose-containing media. Carbohydrate Polymers 292, pages 119692.
Crossref
Crossref
Nirali Dedhia, Sandesh J. Marathe & Rekha S. Singhal. (2022) Food polysaccharides: A review on emerging microbial sources, bioactivities, nanoformulations and safety considerations. Carbohydrate Polymers 287, pages 119355.
Crossref
Crossref
C. Shashikumar, Sudip Mitra & Siddhartha Singha. 2022. Biopolymer‐Based Food Packaging. Biopolymer‐Based Food Packaging
225
263
.
Elda M. Melchor-Martínez, Rodrigo Macías-Garbett, Lynette Alvarado-Ramírez, Rafael G. Araújo, Juan Eduardo Sosa-Hernández, Diana Ramírez-Gamboa, Lizeth Parra-Arroyo, Abraham Garza Alvarez, Rosina Paola Benavides Monteverde, Karen Aleida Salazar Cazares, Adriana Reyes-Mayer, Mauricio Yáñez Lino, Hafiz M. N. Iqbal & Roberto Parra-Saldívar. (2022) Towards a Circular Economy of Plastics: An Evaluation of the Systematic Transition to a New Generation of Bioplastics. Polymers 14:6, pages 1203.
Crossref
Crossref
Raluca Elisabeta Lupașcu, Mihaela Violeta Ghica, Cristina-Elena Dinu-Pîrvu, Lăcrămioara Popa, Bruno Ștefan Velescu & Andreea Letiția Arsene. (2022) An Overview Regarding Microbial Aspects of Production and Applications of Bacterial Cellulose. Materials 15:2, pages 676.
Crossref
Crossref
Sajjad Ullah, Elias Paiva Ferreira-Neto, Saima Sohni, Akbar Ali & Rashida Parveen. 2022. Nano-Biosorbents for Decontamination of Water, Air, and Soil Pollution. Nano-Biosorbents for Decontamination of Water, Air, and Soil Pollution
359
394
.
Chhavi Sharma & Puneet Pathak. 2022. Handbook of Biopolymers. Handbook of Biopolymers
1
38
.
Hetian Hu, Jeffrey M. Catchmark & Ali Demirci. (2021) Co-culture fermentation on the production of bacterial cellulose nanocomposite produced by Komagataeibacter hansenii. Carbohydrate Polymer Technologies and Applications 2, pages 100028.
Crossref
Crossref
Abudukeremu Kadier, R. A. Ilyas, M. R. M. Huzaifah, Nani Harihastuti, S. M. Sapuan, M. M. Harussani, M. N. M. Azlin, Rustiana Yuliasni, R. Ibrahim, M. S. N. Atikah, Junying Wang, K. Chandrasekhar, M Amirul Islam, Shubham Sharma, Sneh Punia, Aruliah Rajasekar, M. R. M. Asyraf & M. R. Ishak. (2021) Use of Industrial Wastes as Sustainable Nutrient Sources for Bacterial Cellulose (BC) Production: Mechanism, Advances, and Future Perspectives. Polymers 13:19, pages 3365.
Crossref
Crossref
Claudio José Galdino da SilvaJrJr, Alexandre D’Lamare Maia de Medeiros, Julia Didier Pedrosa de Amorim, Helenise Almeida do Nascimento, Attilio Converti, Andrea Fernanda Santana Costa & Leonie Asfora Sarubbo. (2021) Bacterial cellulose biotextiles for the future of sustainable fashion: a review. Environmental Chemistry Letters 19:4, pages 2967-2980.
Crossref
Crossref
Nan Qiao, Xue Fan, Shuang Hu, Xiuzhen Zhang, Ling Wang, Yundi Du, Lei Wang, Xiaojun Zhang & Dayu Yu. (2020) Bacterial cellulose as an oleaginous yeast cell carrier for soybean oil refinery effluent treatment and pyrolysis oil production. Bioprocess and Biosystems Engineering 44:4, pages 661-671.
Crossref
Crossref
Aida Fadakar Sarkandi & Majid Montazer. 2021. Green Chemistry for Sustainable Textiles. Green Chemistry for Sustainable Textiles
137
152
.
Subramanian Senthilkannan Muthu & R. RathinamoorthySubramanian Senthilkannan Muthu & R. Rathinamoorthy. 2021. Bacterial Cellulose. Bacterial Cellulose
19
60
.
Supajit Sraphet & Bagher Javadi. (2020) Bacterial Cellulose from Food to Biomedical Products. The Open Biotechnology Journal 14:1, pages 124-133.
Crossref
Crossref
Karnika Thakur, Vinod Kumar, Varun Kumar & Sudesh Kumar Yadav. (2020) Genomic characterization provides genetic evidence for bacterial cellulose synthesis by Acetobacter pasteurianus RSV-4 strain. International Journal of Biological Macromolecules 156, pages 598-607.
Crossref
Crossref
Heru Suryanto, Muhamad Muhajir, Neena Zakia, Uun Yanuhar, Aminnudin Aminnudin & Yanuar Rohmat Aji Pradana. (2020) Effect of Drying Methods on the Structure of Bacterial Cellulose from Pineapple Peel Extract. Key Engineering Materials 851, pages 79-85.
Crossref
Crossref
A Y Apriyana, D Andriani & M Karina. (2020) Production of bacterial cellulose from tofu liquid waste and rice-washed water: morphological property and its functional groups analysis. IOP Conference Series: Earth and Environmental Science 483, pages 012005.
Crossref
Crossref
Guo-Liang Zhuang, Shu-Yii Wu, Ying-Chen Lo, Ying-Cheng Chen, Kuo-Lun Tung & Hui-Hsin Tseng. (2020) Gluconacetobacter xylinus synthesized biocellulose nanofiber membranes with superhydrophilic and superoleophobic underwater properties for the high-efficiency separation of oil/water emulsions. Journal of Membrane Science 605, pages 118091.
Crossref
Crossref
Francisco A. G. Soares da Silva, João V. Oliveira, Catarina Felgueiras, Fernando Dourado, Miguel Gama & M. Madalena Alves. (2020) Study and valorisation of wastewaters generated in the production of bacterial nanocellulose. Biodegradation 31:1-2, pages 47-56.
Crossref
Crossref
Błażej Wacikowski & Michał Michałowski. (2020) The possibility of using bacterial cellulose in particleboard technology. Annals of WULS, Forestry and Wood Technology 109, pages 16-23.
Crossref
Crossref
Lingayya Hiremath, V. Chayapathy, Aishwarya Bhat, Alysia M. Martins, O. Sruti, S. Nipun, Kala N. G.Aishwarya B. M.. Formation of enzymatic fuel cell using carbon nanotubes and bacterial cellulose for its usage in generation of power in sewage water. Formation of enzymatic fuel cell using carbon nanotubes and bacterial cellulose for its usage in generation of power in sewage water.
Vijayendran Raghavendran, Emmanuel Asare & Ipsita Roy. 2020.
89
138
.
R. Rathinamoorthy & T. Kiruba. 2020. Leather and Footwear Sustainability. Leather and Footwear Sustainability
91
121
.
Nan Qiao, Xue Fan, Xiuzhen Zhang, Yunfen Shi, Lei Wang & Dayu Yu. (2019) Soybean oil refinery effluent treatment and its utilization for bacterial cellulose production by Gluconacetobacter xylinus. Food Hydrocolloids 97, pages 105185.
Crossref
Crossref
Tladi Gideon Mofokeng, Mokgaotsa Jonas Mochane, Vincent Ojijo, Suprakas Sinha Ray & Teboho Clement Mokhena. 2019. Soil Microenvironment for Bioremediation and Polymer Production. Soil Microenvironment for Bioremediation and Polymer Production
307
318
.
G. Gayathri & G. Srinikethan. (2019) Bacterial Cellulose production by K. saccharivorans BC1 strain using crude distillery effluent as cheap and cost effective nutrient medium. International Journal of Biological Macromolecules 138, pages 950-957.
Crossref
Crossref
Santiago Campuzano & Andrew E. Pelling. (2019) Scaffolds for 3D Cell Culture and Cellular Agriculture Applications Derived From Non-animal Sources. Frontiers in Sustainable Food Systems 3.
Crossref
Crossref
Mohamed Abdelraof, Mohamed S. Hasanin & Houssni El -Saied. (2019) Ecofriendly green conversion of potato peel wastes to high productivity bacterial cellulose. Carbohydrate Polymers 211, pages 75-83.
Crossref
Crossref
R.F. Dórame-Miranda, N. Gámez-Meza, L.Á. Medina-Juárez, J.M. Ezquerra-Brauer, M. Ovando-Martínez & J. Lizardi-Mendoza. (2019) Bacterial cellulose production by Gluconacetobacter entanii using pecan nutshell as carbon source and its chemical functionalization. Carbohydrate Polymers 207, pages 91-99.
Crossref
Crossref
Zohaib Hussain, Wasim Sajjad, Taous Khan & Fazli Wahid. (2019) Production of bacterial cellulose from industrial wastes: a review. Cellulose 26:5, pages 2895-2911.
Crossref
Crossref