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Eco-friendly dyeing of fabric and wool yarn samples with Morus nigra leaf extracts

Year 2023, Volume: 10 Issue: 3, 821 - 828, 30.08.2023
https://doi.org/10.18596/jotcsa.1286585

Abstract

Morus nigra L. is a biologically important plant. In addition to the biological importance of the extracts obtained from its various parts, it is used as a material in various fields. In this work, dyeing properties of the cotton fabrics and the wool yarns with Morus nigra L. leaf extracts were investigated. In dyeing studies using Morus nigra L. leaf extracts, yellow tones were obtained in dyeing cotton fabrics, and green and yellow tones were obtained in dyeing wool yarns. Washing, rubbing and light fastness of dyed textile products were examined. According to the results, cotton fabrics showed better dyeing potential than wool yarns. As a result, Morus nigra L. leaf can be used as a natural dyeing agent in the dyeing of textile products.

References

  • 1 Adeel S, Rehman FU, Khosa MK, Rajab S, Zia KM, Zuber M, Batool, F. Eco-friendly isolation of colorant from arjun bark for dyeing of bio-mordanted cotton fabric: short title: dyeing of bio-mordanted cotton with arjun bark colorant. J. Nat. Fibers 2022, 19(12); 4684-4695. Available from: <DOI>.
  • 2 Haji A, Naebe M. Cleaner dyeing of textiles using plasma treatment and natural dyes: A review. J. Clean. Prod. 2020, 265; 121866. Available from: <DOI>.
  • 3 Hossain S, Jalil MA, Kader A, Kamal SAB. Excellent dyeing properties of a natural dye extracted from the leaves of Phoenix dactylifera Linn on cotton and silk fabrics. J. Nat. Fibers 2022, 19(15); 9803-9812. Available from: <DOI>.
  • 4 Önal A, Özbek O, Tombul KC, Nached S. Investigation of the dyeing properties of cotton fabrics and wool yarns using Prunus persica leaf extract. J. Indian Chem. Soc. 2021, 98;100092. Available from: <DOI>.
  • 5 Önal A, Özbek O, Vanlıoğlu F, Teker AT, Boyraz D. Investigation of the dyeing properties of the colorant extracted from Juglans regia L. leaves on cellulosic and protein fabrics. J. Turk. Chem. Soc., Sect. A: Chem. 2021, 8;453–460. Available from: <DOI>.
  • 6 Akmeşe O, Acet T, Özcan K. Determination of antioxidant and antimicrobial activities and synergistic effect with antibiotics of Morus nigra L. extracts grown in Elazig province. Gümüşhane Univ J Sci Technol. 2020, 10;983995. Available from: <DOI>.
  • 7 Polumackanycz M, Wesolowski M, Viapiana A. Morus alba L. and Morus nigra L. leaves as a promising food source of phenolic compounds with antioxidant activity. Plant Foods Hum. Nutr. 2021, 76;458–465. Available from: <DOI>.
  • 8 Melo RSS, Reis SAGB, Guimarães AL, Silva NDDS, Rocha JM, El Aouad N, Almeida JRGDS. Phytocosmetic Emulsion Containing Extract of Morus nigra L. (Moraceae): Development, Stability Study, Antioxidant and Antibacterial Activities, Cosmetics 2022, 9; 39. Available from: <DOI>.
  • 9 de Freitas MM, Fontes PR, Souza PM, William Fagg C, Neves Silva Guerra E, de Medeiros Nóbrega YK, Silveira D, Fonseca-Bazzo Y, Simeoni LA, Homem-de-Mello M, Magalhães PO. Extracts of Morus nigra L. leaves standardized in chlorogenic acid, rutin and isoquercitrin: tyrosinase inhibition and cytotoxicity. PloS One, 2016, 11;e0163130. Available from: <DOI>.
  • 10 Queiroz GT, Santos, TR, Macedo R, Peters VM, Leite, MN, Sá RCS, Guerra MO. Efficacy of Morus nigra L. on reproduction in female Wistar rats. Food Chem. Toxicol. 2012, 50;816–822. Available from: <DOI>.
  • 11 Abay M, Eruygur N. Investigation of Antioxidant Activities of Fruit, Leaf, and Branche Extracts of White (Morus alba L.) and Black (Morus nigra L.) Mulberry Species from Diyarbakır. Turk J Agric Res. 2021, 8;177–183. Available from: <DOI>.
  • 12 Souza GR, Oliveira-Junior RGD, Diniz TC, Branco A, Lima-Saraiva SRG, Guimarães AL, Oliveira AP, Pacheco AGM, Silva MG, Moraes-Filho MO, Costa MP, Pessoa CÓ. Almeida JRGS. Assessment of the antibacterial, cytotoxic and antioxidant activities of Morus nigra L. (Moraceae). Brazilian Journal of Biology. 2018, 78;248–254. Available from: <DOI>.
  • 13 Qadir MI, Ali M, Ibrahim Z. Anti-cancer activity of Morus nigra leaves extract, Bang J Pharmacol. 2014 9;496–497. Available from: <DOI>.
  • 14 Thabti I, Elfalleh W, Tlili N, Ziadi M, Campos MG, Ferchichi A. Phenols, flavonoids, and antioxidant and antibacterial activity of leaves and stem bark of Morus species, Int J. Food Prop. 2014, 17;842–854. Available from: <DOI>.
  • 15 Lim SH, Choi CI. Pharmacological Properties of Morus nigra L. (Black Mulberry) as apromising Nutraceutical resource. Nutrient 2019, 11;437. Available from: <DOI>.
  • 16 Yilmaz F. The importance of using natural dyestuffs in children's clothing and in this context the use of black mulberry leaves in wool dyeing. J Art Iconograph. 2021, 1;1–6. Available from: <URL>.
  • 17 Carneiro ADA, Sinoti SBP, de Freitas MM, Simeoni LA, Fagg CW, Magalhães PDO, Silveira D, Fonseca-Bazzo YM. Hydroethanolic Extract of Morus nigra L. Leaves: A dual PPAR-α/γ agonist with anti-ınflammatory properties in lipopolysaccharide-stimulated RAW 264.7. Plants 2022, 11; 3147. Available from: <DOI>.
  • 18 Önal A, Tombul KC, Nached S. Investigation of dyeing properties of different fabric species with curcuma longa extracts. Rev. Roum. Chim. 2020, 65;983–988. Available from: <DOI>.
  • 19 Önal A, Özbek O, Nached S. The production of antiviral–breathing mask against SARS-CoV-2 using some herbal essential oils. J. Turk. Chem. Soc., Sect. A: Chem. 2020, 7;821–826. Available from: <DOI>.
  • 20 Onal A. Extraction of dyestuff from onion (Allium cepa L.) and its application in the dyeing of wool, feathered-leather and cotton. Turk. J. Chem. 1996, 20;194–203. Available from: <URL>.
  • 21 Leon K, Mery D, Pedreschi F, Leon J. Color measurement in L∗ a∗ b∗ units from RGB digital images. Food Res. Int. 2006, 39;1084–1091. Available from: <DOI>.
  • 22 Ly BCK, Dyer, EB, Feig JL, Chien AL, Del Bino S. Research techniques made simple: cutaneous colorimetry: a reliable technique for objective skin color measurement. J. Invest. Dermatol. 2020, 140; 3-12. Available from: <DOI>.
  • 23 Džimbeg-Malčić, Z. Barbarić-Mikočević, K. Itrić, Kubelka-munk theory in describing optical properties of paper (I). Teh. Vjesn. 2011, 18;117–124. Available from: <URL>.
Year 2023, Volume: 10 Issue: 3, 821 - 828, 30.08.2023
https://doi.org/10.18596/jotcsa.1286585

Abstract

References

  • 1 Adeel S, Rehman FU, Khosa MK, Rajab S, Zia KM, Zuber M, Batool, F. Eco-friendly isolation of colorant from arjun bark for dyeing of bio-mordanted cotton fabric: short title: dyeing of bio-mordanted cotton with arjun bark colorant. J. Nat. Fibers 2022, 19(12); 4684-4695. Available from: <DOI>.
  • 2 Haji A, Naebe M. Cleaner dyeing of textiles using plasma treatment and natural dyes: A review. J. Clean. Prod. 2020, 265; 121866. Available from: <DOI>.
  • 3 Hossain S, Jalil MA, Kader A, Kamal SAB. Excellent dyeing properties of a natural dye extracted from the leaves of Phoenix dactylifera Linn on cotton and silk fabrics. J. Nat. Fibers 2022, 19(15); 9803-9812. Available from: <DOI>.
  • 4 Önal A, Özbek O, Tombul KC, Nached S. Investigation of the dyeing properties of cotton fabrics and wool yarns using Prunus persica leaf extract. J. Indian Chem. Soc. 2021, 98;100092. Available from: <DOI>.
  • 5 Önal A, Özbek O, Vanlıoğlu F, Teker AT, Boyraz D. Investigation of the dyeing properties of the colorant extracted from Juglans regia L. leaves on cellulosic and protein fabrics. J. Turk. Chem. Soc., Sect. A: Chem. 2021, 8;453–460. Available from: <DOI>.
  • 6 Akmeşe O, Acet T, Özcan K. Determination of antioxidant and antimicrobial activities and synergistic effect with antibiotics of Morus nigra L. extracts grown in Elazig province. Gümüşhane Univ J Sci Technol. 2020, 10;983995. Available from: <DOI>.
  • 7 Polumackanycz M, Wesolowski M, Viapiana A. Morus alba L. and Morus nigra L. leaves as a promising food source of phenolic compounds with antioxidant activity. Plant Foods Hum. Nutr. 2021, 76;458–465. Available from: <DOI>.
  • 8 Melo RSS, Reis SAGB, Guimarães AL, Silva NDDS, Rocha JM, El Aouad N, Almeida JRGDS. Phytocosmetic Emulsion Containing Extract of Morus nigra L. (Moraceae): Development, Stability Study, Antioxidant and Antibacterial Activities, Cosmetics 2022, 9; 39. Available from: <DOI>.
  • 9 de Freitas MM, Fontes PR, Souza PM, William Fagg C, Neves Silva Guerra E, de Medeiros Nóbrega YK, Silveira D, Fonseca-Bazzo Y, Simeoni LA, Homem-de-Mello M, Magalhães PO. Extracts of Morus nigra L. leaves standardized in chlorogenic acid, rutin and isoquercitrin: tyrosinase inhibition and cytotoxicity. PloS One, 2016, 11;e0163130. Available from: <DOI>.
  • 10 Queiroz GT, Santos, TR, Macedo R, Peters VM, Leite, MN, Sá RCS, Guerra MO. Efficacy of Morus nigra L. on reproduction in female Wistar rats. Food Chem. Toxicol. 2012, 50;816–822. Available from: <DOI>.
  • 11 Abay M, Eruygur N. Investigation of Antioxidant Activities of Fruit, Leaf, and Branche Extracts of White (Morus alba L.) and Black (Morus nigra L.) Mulberry Species from Diyarbakır. Turk J Agric Res. 2021, 8;177–183. Available from: <DOI>.
  • 12 Souza GR, Oliveira-Junior RGD, Diniz TC, Branco A, Lima-Saraiva SRG, Guimarães AL, Oliveira AP, Pacheco AGM, Silva MG, Moraes-Filho MO, Costa MP, Pessoa CÓ. Almeida JRGS. Assessment of the antibacterial, cytotoxic and antioxidant activities of Morus nigra L. (Moraceae). Brazilian Journal of Biology. 2018, 78;248–254. Available from: <DOI>.
  • 13 Qadir MI, Ali M, Ibrahim Z. Anti-cancer activity of Morus nigra leaves extract, Bang J Pharmacol. 2014 9;496–497. Available from: <DOI>.
  • 14 Thabti I, Elfalleh W, Tlili N, Ziadi M, Campos MG, Ferchichi A. Phenols, flavonoids, and antioxidant and antibacterial activity of leaves and stem bark of Morus species, Int J. Food Prop. 2014, 17;842–854. Available from: <DOI>.
  • 15 Lim SH, Choi CI. Pharmacological Properties of Morus nigra L. (Black Mulberry) as apromising Nutraceutical resource. Nutrient 2019, 11;437. Available from: <DOI>.
  • 16 Yilmaz F. The importance of using natural dyestuffs in children's clothing and in this context the use of black mulberry leaves in wool dyeing. J Art Iconograph. 2021, 1;1–6. Available from: <URL>.
  • 17 Carneiro ADA, Sinoti SBP, de Freitas MM, Simeoni LA, Fagg CW, Magalhães PDO, Silveira D, Fonseca-Bazzo YM. Hydroethanolic Extract of Morus nigra L. Leaves: A dual PPAR-α/γ agonist with anti-ınflammatory properties in lipopolysaccharide-stimulated RAW 264.7. Plants 2022, 11; 3147. Available from: <DOI>.
  • 18 Önal A, Tombul KC, Nached S. Investigation of dyeing properties of different fabric species with curcuma longa extracts. Rev. Roum. Chim. 2020, 65;983–988. Available from: <DOI>.
  • 19 Önal A, Özbek O, Nached S. The production of antiviral–breathing mask against SARS-CoV-2 using some herbal essential oils. J. Turk. Chem. Soc., Sect. A: Chem. 2020, 7;821–826. Available from: <DOI>.
  • 20 Onal A. Extraction of dyestuff from onion (Allium cepa L.) and its application in the dyeing of wool, feathered-leather and cotton. Turk. J. Chem. 1996, 20;194–203. Available from: <URL>.
  • 21 Leon K, Mery D, Pedreschi F, Leon J. Color measurement in L∗ a∗ b∗ units from RGB digital images. Food Res. Int. 2006, 39;1084–1091. Available from: <DOI>.
  • 22 Ly BCK, Dyer, EB, Feig JL, Chien AL, Del Bino S. Research techniques made simple: cutaneous colorimetry: a reliable technique for objective skin color measurement. J. Invest. Dermatol. 2020, 140; 3-12. Available from: <DOI>.
  • 23 Džimbeg-Malčić, Z. Barbarić-Mikočević, K. Itrić, Kubelka-munk theory in describing optical properties of paper (I). Teh. Vjesn. 2011, 18;117–124. Available from: <URL>.
There are 23 citations in total.

Details

Primary Language English
Subjects Natural Products and Bioactive Compounds
Journal Section RESEARCH ARTICLES
Authors

Adem Önal 0000-0002-9070-089X

Oğuz Özbek 0000-0001-5185-9681

Pakize Düzgün 0009-0003-3432-3887

Sama Nached 0000-0001-5817-3797

Publication Date August 30, 2023
Submission Date April 23, 2023
Acceptance Date July 12, 2023
Published in Issue Year 2023 Volume: 10 Issue: 3

Cite

Vancouver Önal A, Özbek O, Düzgün P, Nached S. Eco-friendly dyeing of fabric and wool yarn samples with Morus nigra leaf extracts. JOTCSA. 2023;10(3):821-8.