Korean Journal of Chemical Engineering, Vol.39, No.8, 2020-2027, 2022
Solubility enhancement of indigo dye through biochemical reduction and structural modification
Indigo is one of the most widely used dyes for textiles and is thus produced in large quantities. Owing to its low solubility, a chemical-dependent continuous reduction-oxidation process is often used for indigo dyeing. Unfortunately, the indigo dyeing process has adopted a hazardous reducing agent such as Na2S2O4, to reduce indigo into leucoindigo, thus causing serious water pollution in the process. To avoid this, the use of chemical reducing reagents was banned, creating a need to identify alternative reducing agents or to develop more eco-friendly dyeing processes. In this review, alternative reducing reagents such as biochemicals, plant fruits, biocatalysts, and microbes, which are less harmful to the environment than chemical reducing reagents, are summarized with their reducing reactions and performance. In addition, alternative modifications of indigo that bypass the use of reducing reagents have also been briefly introduced. The reducing chemicals and processes summarized have their respective merits and drawbacks; however, further research is required to obtain profitable dyeing performance that meets economic goals.
[References]
Choi KY, Dyes Pigment. , 181 , 108570, 2020
Saikhao L, Setthayanond J, Karpkird T, Bechtold T, Suwanruji P, J. Clean Prod. , 197 , 106, 2018
Mendoza-Avila J, Chauhan K, Vazquez-Duhalt R, Dyes Pigment. , 178 , 108384, 2020
Park H, Park G, Jeon W, Ahn JO, Yang YH, Choi KY, Biotechnol. Adv. , 40 , 107504, 2020
Ameria SP, Jung HS, Kim HS, Han SS, Kim HS, Lee JH, Biotechnol. Lett. , 37 , 1637, 2015
Ma Q, Zhang X, Qu Y, Front. Microbiol. , 9 , 2625, 2018
Yi C, Tan X, Bie B, Ma H, Yi H, Sci. Rep. , 10 , 4927, 2020
Hmida SB, Ladhari N, Ozone-Sci. Eng. , 38 , 175, 2016
Blackburn RS, Harvey A, Environ. Sci. Technol. , 38 , 4034, 2004
Nicholson SK, John P, Appl. Microbiol. Biotechnol. , 68 , 117, 2005
Pricelius S, Held C, Murkovic M, Bozic M, Kokol V, Cavaco-Paulo A, Guebitz GM, Appl. Microbiol. Biotechnol. , 77 , 321, 2007
Hsu TM, Welner DH, Russ ZN, Cervantes B, Prathuri RL, Adams PD, Dueber JE, Nat. Chem. Biol. , 14 , 256, 2018
Namgung S, Park HA, Kim J, Lee PG, Kim BG, Yang YH, Choi KY, Dyes Pigment. , 162 , 80, 2019
Sadauskas M, Statkevičiūtė R, Vaitekūnas J, Petkevičius V, Časaitė V, Gasparavičiūtė R, Meškys R, Dyes Pigment. , 173 , 107882, 2020
Bektas I, Karaman S, Diraz E, Celik M, Cytotechnology , 68 , 2245, 2016
Prinz H, Wiegrebe W, Muller K, J. Org. Chem. , 61 , 2853, 1996
de Carvalho LM, Schwedt G, J. Chromatogr. A , 1099 , 185, 2005
Shen Y, Cong W, Zhang AH, Meng X, PLoS One , 15 , e0238927, 2020
Božič M, Kokol V, Dyes Pigment. , 76 , 299, 2008
Liu Y, Li Y, Yang Y, Wen Y, Wang M, J. Nanosci. Nanotechnol. , 11 , 10082, 2011
Procuranti B, Connon SJ, Chem. Commun. , 14 , 1421, 2007
Shin Y, Choi M, Yoo DI, Fashion Textiles , 1 , 6, 2014
Hossain MD, Khan MMR, Uddin MZ, J. Polym. Environ. , 25 , 1219, 2017
Pan TT, Sun DW, Pu H, Wei Q, J. Agric. Food Chem. , 66 , 2180, 2018
Sun J, Dong J, Han S, Wang Y, Yang Q, Qian W, J. Nanosci. Nanotechnol. , 18 , 4891, 2018
Padden AN, John P, Collins MD, Hutson R, Hall AR, J. Archaeological Sci. , 27 , 953, 2000
Nakajima K, Hirota K, Nodasaka Y, Yumoto I, Int. J. System. Evolutionary Microbiol. , 55 , 1525, 2005
Yumoto I, Hirota K, Nodasaka Y, Tokiwa Y, Nakajima K, Int. J. System. Evolutionary Microbiol. , 58 , 901, 2008
Yumoto I, Hirota K, Nodasaka Y, Yokota Y, Hoshino T, Nakajima K, Int. J. System. Evolutionary Microbiol. , 54 , 2379, 2004
Hirota K, Aino K, Nodasaka Y, Morita N, Yumoto I, Int. J. System. Evolutionary Microbiol. , 63 , 464, 2013
Hirota K, Aino K, Nodasaka Y, Yumoto I, Int. J. System. Evolutionary Microbiol. , 63 , 1437, 2013
Tu Z, Lopes HFS, Yumoto I, Int. J. System. Evolutionary Microbiol. , 14 , 005239, 2022
Hirota K, Aino K, Yumoto I, Int. J. System. Evolutionary Microbiol , 63 , 4303, 2013
Hirota K, Aino K, Yumoto I, Int. J. System. Evolutionary Microbiol. , 66 , 2247, 2016
Hirota K, Nishita M, Matsuyama H, Yumoto I, Int. J. System. Evolutionary Microbiol. , 67 , 4050, 2017
Hirota K, Okamoto T, Matsuyama H, Yumoto I, Int. J. System Evolutionary Microbiol. , 66 , 4650, 2016
Park S, Ryu JY, Seo J, Hur HG, J. Korean Soc. Appl. Biol. Chem. , 55 , 83, 2012
Tu Z, Lopes HFS, Narihiro T, Yumoto I, Front. Microbiol. , 12 , 698674, 2021
Mahadevan MM, Weitzman GA, Hogan S, Breckinridge S, Miller MM, Reprod Toxicol. , 7 , 631, 1993
Zhu X, Bao L, Wei Y, Ma J, Kong Y, Int. J. Biol. Macromol. , 91 , 409, 2016
Suzuki H, Abe T, Doi K, Ohshima T, Appl. Microbiol. Biotechnol. , 102 , 9171, 2018
Yoneda K, Yoshioka M, Sakuraba H, Araki T, Ohshima T, Int. J. Biol. Macromol. , 164 , 3259, 2020
Yoneda K, Sakuraba H, Araki T, Ohshima T, FEBS Open Bio , 11 , 1981, 2021
Romero E, Savino S, Fraaije MW, Lončar N, ACS Chem. Biol. , 15 , 504, 2020
Comisso N, Mengoli G, Environ. Chem. Lett. , 1 , 229, 2003
Roessler A, Crettenand D, Dossenbach O, Marte W, Rys P, Electrochim. Acta , 47 , 1989, 2002
Roessler A, Dossenbach O, Rys P, J. Electrochem. Soc. , 33 , 901, 2003
Haji A, Naebe M, J. Clean Prod. , 265 , 121866, 2020
Sajed T, Haji A, Mehrizi MK, Boroumand MN, Int. J. Biol. Macromol. , 107 , 642, 2018
Wang M, Mao M, Zhang M, Wen G, Yang Q, Su B, Ren Q, Waste Manage. , 90 , 29, 2019
Crema APS, Borges LDP, Micke GA, Debacher NA, Chemosphere , 244 , 125502, 2020
Zhang RB, Wu Y, Li GF, Wang NH, Li J, J. Environ. Sci. , 16 , 808, 2004
Park H, Park S, Yang YH, Choi KY, Crit. Rev. Biotechnol. , 41 , 879, 2021
Mani P, Fidal VT, Bowman K, Breheny M, Chandra TS, Keshavarz T, Kyazze G, Front. Energy Res. , 7 , 101, 2019
Hirota K, Nishita M, Tu Z, Matsuyama H, Yumoto I, Int. J. System. Evolutionary Microbiol. , 68 , 1123, 2018
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