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- In relation to this article, we declare that there is no conflict of interest.
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Received December 16, 2019
Accepted February 27, 2020
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright © KIChE. All rights reserved.
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Production of bacterial cellulose from alternative cheap and waste resources: A step for cost reduction with positive environmental aspects
Department of Chemical Engineering, College of Engineering, Dhofar University, Salalah, Sultanate of Oman 1Department of Biomedical Engineering, Huazhong University of Science and Technology, Wuhan 430074, P. R. China 2Materials Science Institute, PCFM Lab and GDHPRC Lab., School of Chemistry, Sun Yat-Sen University, Guangzhou 510275, P. R. China 3Department of Chemical Engineering, Kyungpook National University, Daegu 41566, Korea
parkjk@knu.ac.kr
Korean Journal of Chemical Engineering, June 2020, 37(6), 925-937(13), 10.1007/s11814-020-0524-3
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Abstract
Bacterial cellulose (BC), an important biopolymer, has gained tremendous interest in several fields in the last few decades. Despite having the same chemical structure as plant cellulose, BC is superior in physical appearance and purity, as well as in mechanical, crystallinic, and biological properties for multiple applications. Despite these features, BC has limitations in production cost as well as physiological features. Notable limitations, including a non-bactericidal nature, low biocompatibility, and lack of conductive and magnetic properties, have been compensated through the development of composites using nanomaterials and polymers. Similarly, the limitation associated with cost has been reduced by developing new BC synthesis strategies, designing novel bioreactors, using genetically modified microbial species, and exploring alternative cheap fermentation media. Successful BC production has been reported from the use of industrial, confectionary, municipal and other wastes, including coconut water and fruit juices. Herein, we overview various efforts made thus far in identifying waste byproducts and inexpensive carbon sources for cost-effective BC production. It also provides information about the BC market and selling price, as well as techno-economic analysis of biotechnological BC production. This review article includes findings reported in the last few decades, and we hope it will be of great interest for readers as well as commercial BC producers.
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Khan S, Ul-Islam M, Ullah MW, Israr M, Jang JH, Park JK, Int. J. Biol. Macromol., 107, 865 (2018)
Jasim A, Ullah MW, Shi Z, Lin X, Yang G, Carbohydr. Polym., 163, 62 (2017)
Czaja WK, Young DJ, Kawecki M, Brown RM, Biomacromolecules, 8(1), 1 (2007)
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McCarthy RR, Ullah MW, Pei E, Yang G, Trends Biotechnol., 37, 1153 (2019)
Ul-Islam M, Subhan F, Islam SU, Khan S, Shah N, Manan S, Ullah MW, Yang G, Int. J. Biol. Macromol., 137, 1050 (2019)
Khan S, Ul-Islam M, Ikram M, Islam SU, Ullah MW, Israr M, Jang JH, Yoon S, Park JK, Int. J. Biol. Macromol., 117, 1200 (2018)
Aljohani W, Ullah MW, Zhang X, Yang G, Int. J. Biol. Macromol., 107, 261 (2018)
Di Z, Shi Z, Ullah MW, Li S, Yang G, Int. J. Biol. Macromol., 105, 638 (2017)
Li S, Jasim A, Zhao W, Fu L, Ullah MW, Shi Z, Yang G, ES Mater. Manuf., 1, 41 (2018)
Khan FU, Asimullah, Khan SB, Kamal T, Asiri AM, Khan IU, Akhtar K, Int. J. Biol. Macromol., 102, 868 (2017)
Ul-Islam M, Ullah MW, Khan S, Kamal T, Ul-Islam S, Shah N, Park JK, Recent Pat. Nanotechnol., 10, 169 (2016)
Krammer P, Vogel H, J. Supercrit. Fluids, 16(3), 189 (2000)
Hussain Z, Sajjad W, Khan T, Wahid F, Cellulose, 26, 2895 (2019)
Cheng Z, Yang RD, Liu X, Liu XA, Chen H, Bioresour. Technol., 234, 8 (2017)
Goelzer FDE, Faria-Tischer PCS, Vitorino JC, Sierakowski MR, Tischer CA, Mater. Sci. Eng. C-Biomimetic Supramol. Syst., 29, 546 (2009)
Hong F, Zhu YX, Yang GA, Yang XX, J. Chem. Technol. Biotechnol., 86(5), 675 (2011)
Al-Abdallah W, Dahman Y, Bioprocess Biosyst. Eng., 36, 1735 (2013)
Kuo CH, Huang CY, Shieh CJ, Wang HMD, Tseng CY, Waste Biomass Valori., 10, 85 (2019)
Skiba EA, Baibakova OV, Budaeva VV, Pavlov IN, Vasilishin MS, Makarova EI, Sakovich GV, Ovchinnikova EV, Banzaraktsaeva SP, Vernikovskaya NV, Chumachenko VA, Chem. Eng. J., 329, 178 (2017)
Skiba EA, Budaeva VV, Ovchinnikova EV, Gladysheva EK, Kashcheyeva EI, Pavlov IN, Sakovich GV, Chem. Eng. J., 383, 123128 (2019)
Guzel M, Akpınar O, Waste Biomass Valori., 10, 2165 (2019)
Algar I, Fernandes SCM, Mondragon G, Castro C, Garcia-Astrain C, Gabilondo N, Retegi A, Eceiza A, J. Appl. Polym. Sci., 132, 41237 (2014)
Luo MT, Zhao C, Huang C, Chen XF, Huang QL, Qi GX, Tian LL, Xiong L, Li HL, De Chen X, Indian J. Microbiol., 57, 393 (2017)
Chen L, Hong F, Yang XX, Han SF, Bioresour. Technol., 135, 464 (2013)
Rani MU, Appaiah KAA, J. Food Sci. Technol., 50, 755 (2013)
Adebayo-Tayo B, Akintunde M, Sanusi J, J. Adv. Biol. Biotechnol, 14, 1 (2017)
Pacheco G, Nogueira CR, Meneguin AB, Trovatti E, et al., Ind. Crop. Prod., 107, 13 (2017)
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Voon WWY, Muhialdin BJ, Yusof NL, Rukayadi Y, Hussin ASM, Appl. Biochem. Biotechnol., 187(1), 211 (2019)
Carreira P, Mendes JAS, Trovatti E, Serafim LS, Freire CSR, Silvestre AJD, Neto CP, Bioresour. Technol., 102(15), 7354 (2011)
Castro C, Zuluaga R, Putaux JL, Caro G, Mondragon I, Ganan P, Carbohydr. Polym., 84, 96 (2011)
Casarica A, Campeanu G, Moscovici M, Ghiorghita A, Manea V, Cellul. Chem. Technol., 47, 61 (2013)
Kumbhar JV, Rajwade JM, Paknikar KM, Appl. Microbiol. Biotechnol., 99(16), 6677 (2015)
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Wu JM, Liu RH, Carbohydr. Polym., 90, 116 (2012)
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Hyun JY, Mahanty B, Kim CG, Appl. Biochem. Biotechnol., 172(8), 3748 (2014)
Liu M, Zhang M, Lin S, Liu J, Yang Y, Jin Y, African J. Microbiol. Res., 6, 4739 (2012)
Vazquez A, Foresti ML, Cerrutti P, Galvagno M, J. Polym. Environ., 21, 545 (2013)
Huang C, Guo HJ, Xiong L, Wang B, Shi SL, Chen XF, Lin XQ, Wang C, Luo J, De Chen X, Carbohydr. Polym., 136, 198 (2016)
Cavka A, Guo X, Tang SJ, Winestrand S, Jonsson LJ, Hong F, Biotechnol. Biofuels, 6, 25 (2013)
Kona RP, Qureshi N, Pai JS, Bioresour. Technol., 78(2), 123 (2001)
Jung HI, Lee OM, Jeong JH, Jeon YD, Park KH, Kim HS, An WG, Son HJ, Appl. Biochem. Biotechnol., 162(2), 486 (2010)
Costa AFS, Almeida FCG, Vinhas GM, Sarubbo LA, Front. Microbiol., 8, 2027 (2017)
Tsouko E, Kourmentza C, Ladakis D, Kopsahelis N, Mandala I, Papanikolaou S, Paloukis F, Alves V, Koutinas A, Int. J. Mol. Sci., 16(7), 14832 (2015)
Li Z, Wang L, Hua J, Jia S, Zhang J, Liu H, Carbohydr. Polym., 120, 115 (2015)
Hong F, Guo X, Zhang S, Han SF, Yang G, Jonsson LJ, Bioresour. Technol., 104, 503 (2012)
Kuo CH, Lin PJ, Lee CK, J. Chem. Technol. Biotechnol., 85(10), 1346 (2010)
Khattak WA, Khan T, Ul-Islam M, Ullah MW, Khan S, Wahid F, Park JK, J. Food Sci. Technol., 52, 8343 (2015)
Sanadi NFA, Van Fan Y, Leow CW, Wong JH, Koay YS, Lee CT, Chua LS, Sarmidi MR, Chem. Eng. Trans., 56, 511 (2017)
Tyagi N, Suresh S, J. Clean Prod., 112, 71 (2016)
de Costa AFS, Do Nascimento VR, de Amorim JDP, de Gomes EAS, de Araujo LM, Sarubbo LA, Chem. Eng. Trans., 64, 1 (2018)
Kurosumi A, Sasaki C, Yamashita Y, Nakamura Y, Carbohydr. Polym., 76, 333 (2009)
Kim SS, Lee SY, Park KJ, Park SM, An HJ, Hyun JM, Choi YH, Saudi J. Biol. Sci., 24, 314 (2017)
Lima HLS, Nascimento ES, Andrade FK, Brigida AIS, et al., Brazilian J. Chem. Eng., 34, 671 (2017)
Kosseva MR, Li M, Zhang J, He Y, Tjutju NAS, Proc. 2nd Int. Conf. Biosci. Biotechnol., 2, 36 (2017)
Hungund B, Prabhu S, Shetty C, Acharya S, Prabhu V, Gupta SG, J. Microb. Biochem. Technol., 5, 2 (2013)
Lestari P, Elfrida N, Suryani A, Suryadi Y, Jordan J. Biol. Sci., 7, 75 (2014)
Indrianingsih AW, IOP Conference series in earth and environmental sciences, 101, 012010 (2017).
Gayathry G, Gopalaswamy G, J. Pure Appl. Microbiol., 7, 2389 (2013)
Usha Rani M, Anu Appaiah KA, Food Chem., 130, 243 (2012)
Emanuele S, Lauricella M, Calvaruso G, D’Anneo A, Giuliano M, Nutrients, 9, 992 (2017)
Yang XY, Huang C, Guo HJ, Xiong L, Luo J, Wang B, Lin XQ, Chen XF, Chen XD, Prep. Biochem. Biotechnol., 46, 39 (2016)
Yim SM, Song JE, Kim HR, Process Biochem., 59, 26 (2017)
Goh WN, Rosma A, Kaur B, Fazilah A, Karim AA, Bhat R, Int. Food Res. J., 19, 109 (2012)
ResearchMoz, QYResearch, https://www.researchmoz.us/globalmicrobial-and-bacterial-cellulose-market-research-report-2017-report.html (2017).
Phisalaphong M, Tran TK, Taokaew S, Budiraharjo R, Febriana GG, Nguyen DN, Chu-Ky S, Dourado F, Bacterial nanocellulose, Elsevier, 231 (2016).
Piadozo MES, From biotechnology to bio-economy, Elsevier, 215 (2016).
Dourado F, Fontao A, Leal M, Rodrigues AC, Gama M, From biotechnology to bio-economy, 199 (2016).
Keshk SMAS, Razek TMA, Sameshima K, African J. Biotechnol., 5, 1519 (2006)
