Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2018, Cilt: 1 Sayı: 2, 28 - 32, 30.11.2018
https://doi.org/10.34088/kojose.410163

Öz

Kaynakça

  • Alkan R., Torgan E., Aydın C., Karadag R., 2015. Determination of antimicrobial activity of the dyed silk fabrics with some natural dyes. Journal of Textiles and Engineer, 22(97), 37-43.
  • Erkan G., Sengül K., Kaya S., 2011. Dyeing of white and indigo dyed cotton fabrics with Mimosa Tenuiflora extract. Journal of Saudi Chemical Society, 18, 139-148.
  • Deveoglu O., Erkan G., Torgan E., Karadag R., 2013. The evaluation of procedures for dyeing silk with buckthorn and walloon oak on the basis of colour changes and fastness characteristics. Color. Technol., 129, 223–231.
  • Tutak M., Acar G., Akman O., 2014. Natural dyeing properties of wool fabrics by pomegranate (punica granatum) Peel. Tekstil ve Konfeksiyon, 24(1), 81-85.
  • Kilinc M., Canbolat S., Merdan N., Dayioğlu H., Akin F., 2015. Investigation of the color, fastness and antimicrobial properties of wool fabrics dyed with the natural dye extracted from the cone of chamaecyparis lawsoniana. Procedia-Social and Behavioral Sciences, 195, 2152-2159.
  • Chan-Bacab M. J., Sanmartin P., Camacho-Chab J. C., Palomo-Ascanio K. B., Huitz-Quime H. E., Ortega-Morales B. O., 2015. Characterization and dyeing potential of colorant-bearing plants of the Mayan area in Yucatan Peninsula, Mexico. Journal of Cleaner Production, 91, 191-200.
  • Inalcik H., Goyunç N., Lowry Heath W., Erunsal I., Kreiser K., Senturk A. A., 1998. The Journal of Ottoman Studies XVIII, 18, 89-104.
  • Deveoglu O., Torgan E., Karadag R., 2012. High-performance liquid chromatography of some natural dyes: analysis of plant extracts and dyed textiles, society of dyers and colourists. Color. Technol., 128, 1-6.
  • Carvalho C., Santos G., 2016. Sustainability and biotechnology-natural or bio dyes resources in textiles. Journal of Textile Science & Engineering, 6(239), 1-5.
  • Sinha K., Saha P. D., Data S., 2012. Extraction of natural dye from petals of flame of forest (Butea monosperma) flower: process optimization using Response Surface Methodology (RSM). Dyes and Pigments, 94, 212-216.
  • Yusuf M., Mohammad F., Shabbir M., 2016. Eco-friendly and effective dyeing of wool with anthraquinone colorants extracted from rubia cordifolia roots: optimization, colorimetric and fastness assay. Journal of King Saud University Sci., http://dx.doi.org/10.2016/j.jksus.2016.06.005
  • Yusuf M., Shahid M., Khan M. I., Khan S. A., Khan M. A., Mohammad F., 2015. Dyeing studies with henna and madder: a research on effect of tin (ıı) chloride mordant. Journal of Saudi Chemical Society, 19, 64-72.
  • Baliarsingh S., Panda A. K., Jena J., Das T., Das N. B., 2012. Exploring sustainable technique on natural dye extraction from native plants for textile: identification of colorants, colourants, colourimetric analysis of cyed yarns and their antimicrobial evaluation. Journal of Cleaner Production, 37, 257-264.
  • Khan M. I., Ahmad A., Khan S. A., Yusuf M., Shahid M., Manzoor N., Mohammad F., 2011. Assesment of antimicrobial activity of catechu and its dyed substrate. Journal of Cleaner Production, 19, 1385-1394.
  • Hashem M., Ibrahim N. A., El-Sayed W. A., El-Husseiny S., El-Enany E., 2009. Enhancing antimicrobial properties of dyed and finished cotton fabrics. Carbohydrate Polymers, 78, 502-510.
  • Jabli M., Sebeia N., Boulares M., Faidi K., 2017. Chemical analysis of the characteristics of Tunisian juglans regia L. fractions: antibacterial potential, gas chromatography-mass spectroscopy and a full investigation of their dyeing properties. Industrial Crops & Products, 108, 690-699.
  • Ghaheh F. S., Nateri A. S., Mortazavi S. M., Abedi D., Mokhtari J., 2012. The effect of mordant salts on antibacterial activity of wool fabric dyed with pomegranate and walnut shell extracts. Society of Dyers and Colourists, Color. Technol., 128, 473-478.
  • Mirjalili M., Karimi L., 2013. Extraction and characterization of natural dye from green walnut shells and its use in dyeing polyamide: focus on antibacterial properties. Journal of Chemistry, 2013, Article ID 375352, 1-9.
  • Varesano A., Vineis C., Aluigi A., Rombaldoni F., 2011. Antimicrobial polymers for textile products. Formatex, 1, 99-110.

Antimicrobial Properties of Silk Fabrics Dyed with Green Walnut Shell (Juglans regia L.)

Yıl 2018, Cilt: 1 Sayı: 2, 28 - 32, 30.11.2018
https://doi.org/10.34088/kojose.410163

Öz

Natural dyes are obtained from plants, insects,
lichens, fungus and molluscs which have been used since ancient times. These
dyes have antimicrobial, anticarcinogenic and antihelmintic properties. Walnut
(
Juglans regia L.), a species of Juglandaceae
family, is grown in Turkey. Green walnut shell has also antimicrobial functions
due to its juglone components known as one of the strongest antimicrobial
chemical compound. In this study, alum-mordanted and unmordanted silk fabrics
were dyed with green walnut shell. Concentration was varied at 50, 100, 150 and
200 % owf (weight of fabric), in order to assess antimicrobial properties of
green walnut shell. Pathogenic strains of
Staphylococcus
aureus
subsp.  aureus (ATCC 29213) and Escherichia
coli
(ATCC 25922) were used to test for fabrics’ antimicrobial activities.
Reductions of bacterial growth were determined using AATCC test methods. All
the fabrics which were dyed with green walnut shell indicated antimicrobial
effect on both bacteria species. Antimicrobial effect was increased from 50 to
200 % owf (weight of fabric) dye concentration. These results indicated that
unmordanted silk fabrics dyed with green walnut shell had antimicrobial effect
as high as alum-mordanted silk fabrics dyed with green walnut shell and
S.aureus were more sensitive than E.coli. 

Kaynakça

  • Alkan R., Torgan E., Aydın C., Karadag R., 2015. Determination of antimicrobial activity of the dyed silk fabrics with some natural dyes. Journal of Textiles and Engineer, 22(97), 37-43.
  • Erkan G., Sengül K., Kaya S., 2011. Dyeing of white and indigo dyed cotton fabrics with Mimosa Tenuiflora extract. Journal of Saudi Chemical Society, 18, 139-148.
  • Deveoglu O., Erkan G., Torgan E., Karadag R., 2013. The evaluation of procedures for dyeing silk with buckthorn and walloon oak on the basis of colour changes and fastness characteristics. Color. Technol., 129, 223–231.
  • Tutak M., Acar G., Akman O., 2014. Natural dyeing properties of wool fabrics by pomegranate (punica granatum) Peel. Tekstil ve Konfeksiyon, 24(1), 81-85.
  • Kilinc M., Canbolat S., Merdan N., Dayioğlu H., Akin F., 2015. Investigation of the color, fastness and antimicrobial properties of wool fabrics dyed with the natural dye extracted from the cone of chamaecyparis lawsoniana. Procedia-Social and Behavioral Sciences, 195, 2152-2159.
  • Chan-Bacab M. J., Sanmartin P., Camacho-Chab J. C., Palomo-Ascanio K. B., Huitz-Quime H. E., Ortega-Morales B. O., 2015. Characterization and dyeing potential of colorant-bearing plants of the Mayan area in Yucatan Peninsula, Mexico. Journal of Cleaner Production, 91, 191-200.
  • Inalcik H., Goyunç N., Lowry Heath W., Erunsal I., Kreiser K., Senturk A. A., 1998. The Journal of Ottoman Studies XVIII, 18, 89-104.
  • Deveoglu O., Torgan E., Karadag R., 2012. High-performance liquid chromatography of some natural dyes: analysis of plant extracts and dyed textiles, society of dyers and colourists. Color. Technol., 128, 1-6.
  • Carvalho C., Santos G., 2016. Sustainability and biotechnology-natural or bio dyes resources in textiles. Journal of Textile Science & Engineering, 6(239), 1-5.
  • Sinha K., Saha P. D., Data S., 2012. Extraction of natural dye from petals of flame of forest (Butea monosperma) flower: process optimization using Response Surface Methodology (RSM). Dyes and Pigments, 94, 212-216.
  • Yusuf M., Mohammad F., Shabbir M., 2016. Eco-friendly and effective dyeing of wool with anthraquinone colorants extracted from rubia cordifolia roots: optimization, colorimetric and fastness assay. Journal of King Saud University Sci., http://dx.doi.org/10.2016/j.jksus.2016.06.005
  • Yusuf M., Shahid M., Khan M. I., Khan S. A., Khan M. A., Mohammad F., 2015. Dyeing studies with henna and madder: a research on effect of tin (ıı) chloride mordant. Journal of Saudi Chemical Society, 19, 64-72.
  • Baliarsingh S., Panda A. K., Jena J., Das T., Das N. B., 2012. Exploring sustainable technique on natural dye extraction from native plants for textile: identification of colorants, colourants, colourimetric analysis of cyed yarns and their antimicrobial evaluation. Journal of Cleaner Production, 37, 257-264.
  • Khan M. I., Ahmad A., Khan S. A., Yusuf M., Shahid M., Manzoor N., Mohammad F., 2011. Assesment of antimicrobial activity of catechu and its dyed substrate. Journal of Cleaner Production, 19, 1385-1394.
  • Hashem M., Ibrahim N. A., El-Sayed W. A., El-Husseiny S., El-Enany E., 2009. Enhancing antimicrobial properties of dyed and finished cotton fabrics. Carbohydrate Polymers, 78, 502-510.
  • Jabli M., Sebeia N., Boulares M., Faidi K., 2017. Chemical analysis of the characteristics of Tunisian juglans regia L. fractions: antibacterial potential, gas chromatography-mass spectroscopy and a full investigation of their dyeing properties. Industrial Crops & Products, 108, 690-699.
  • Ghaheh F. S., Nateri A. S., Mortazavi S. M., Abedi D., Mokhtari J., 2012. The effect of mordant salts on antibacterial activity of wool fabric dyed with pomegranate and walnut shell extracts. Society of Dyers and Colourists, Color. Technol., 128, 473-478.
  • Mirjalili M., Karimi L., 2013. Extraction and characterization of natural dye from green walnut shells and its use in dyeing polyamide: focus on antibacterial properties. Journal of Chemistry, 2013, Article ID 375352, 1-9.
  • Varesano A., Vineis C., Aluigi A., Rombaldoni F., 2011. Antimicrobial polymers for textile products. Formatex, 1, 99-110.
Toplam 19 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Hülya Uzkul

Rezan Alkan

Yayımlanma Tarihi 30 Kasım 2018
Kabul Tarihi 5 Haziran 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 1 Sayı: 2

Kaynak Göster

APA Uzkul, H., & Alkan, R. (2018). Antimicrobial Properties of Silk Fabrics Dyed with Green Walnut Shell (Juglans regia L.). Kocaeli Journal of Science and Engineering, 1(2), 28-32. https://doi.org/10.34088/kojose.410163