Asian Journal of Home Science

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Development of Antimicrobial Finish from False Daisy (Eclipta alba) for Cotton Fabric


Affiliations
1 Department of Apparel and Textile Science, College of Home Science, Punjab Agricultural University, Ludhiana (Punjab), India
     

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Soxhlet method was used for the extraction of False dasiy with methanol. The antimicrobial activity of false daisy extract was determined by the Disc diffusion method and determine the optimum values of three concentrations 3, 5, 7 g/lit. and time values 12, 18, 24 hours whereas temperature, medium and pH used for optimization of extraction conditions were kept constant. False daisy extract was applied on cotton fabric by direct and microencapsulation techniques. The physical properties of untreated and treated fabric were assessed to determine the appearance, performance and serviceability of the fabric. The test samples were assessed for fabric weight, thickness, drapability, bending length, flexural rigidity, crease recovery, moisture regain, tensile strength, elongation, whiteness index using standard test methods. The efficacy of the microencapsulated samples assessed by testing antimicrobial activity after 5, 10, 15, 20 launder-o-meter washing cycles. The absorbance value of microencapsulated sample after 0 washes 1.102 and 1.757 even after 20 washing cycles. False daisy shows greater reduction of bacterial growth. The antimicrobial activity of microencapsulated sample significantly reduced after every washing cycle.

Keywords

Antimicrobial, Cotton, Efficacy, Optimization, Microencapsulation.
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  • Krishnaveni, V., Amasamani, S. and Rajkumar, G. (2010). Development of eco-friendly herbal antimicrobial finish on cotton fabric using Calendula oficinalis (Marigold).Man Made Tex., 5(1):373-376.

  • Santosh, G. (2010). Anti-microbial textiles. Indian J. Fib. Tex. Res., 13(2):230-235.

  • Sathianaryanan, M.P., Bhat, N.V., Kokate, S.S. and Walung, W.E. (2010). Antimicrobial finish for cotton fabric from herbal products. Indian J. Fib. Tex. Res., 35(3): 50-58.

  • Vinay, G.N. and Gotmare, V.D. (2011). Innovative developments in antimicrobial textiles Indian Tex. Res. J., 12 (2) : 102-132.

  • Jayalakshmi, I. and Manjusha, K.J. (2011). Ayurvedic medicated application on textile material. www.fibre2fashion.


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  • Development of Antimicrobial Finish from False Daisy (Eclipta alba) for Cotton Fabric

Abstract Views: 354  |  PDF Views: 0

Authors

Khushwinder Kaur
Department of Apparel and Textile Science, College of Home Science, Punjab Agricultural University, Ludhiana (Punjab), India
Sandeep Bains
Department of Apparel and Textile Science, College of Home Science, Punjab Agricultural University, Ludhiana (Punjab), India
Sumeet Grewal
Department of Apparel and Textile Science, College of Home Science, Punjab Agricultural University, Ludhiana (Punjab), India

Abstract


Soxhlet method was used for the extraction of False dasiy with methanol. The antimicrobial activity of false daisy extract was determined by the Disc diffusion method and determine the optimum values of three concentrations 3, 5, 7 g/lit. and time values 12, 18, 24 hours whereas temperature, medium and pH used for optimization of extraction conditions were kept constant. False daisy extract was applied on cotton fabric by direct and microencapsulation techniques. The physical properties of untreated and treated fabric were assessed to determine the appearance, performance and serviceability of the fabric. The test samples were assessed for fabric weight, thickness, drapability, bending length, flexural rigidity, crease recovery, moisture regain, tensile strength, elongation, whiteness index using standard test methods. The efficacy of the microencapsulated samples assessed by testing antimicrobial activity after 5, 10, 15, 20 launder-o-meter washing cycles. The absorbance value of microencapsulated sample after 0 washes 1.102 and 1.757 even after 20 washing cycles. False daisy shows greater reduction of bacterial growth. The antimicrobial activity of microencapsulated sample significantly reduced after every washing cycle.

Keywords


Antimicrobial, Cotton, Efficacy, Optimization, Microencapsulation.

References