[1] Cai, Y., David ,S.K., Pailthorpe, M.T., Dyeing of jute and jute/cotton blend fabrics with 2:1 pre-metallised dyes. Dyes and Pigments. 45, 161–168, 2000.
[2] Saha, P., Manna, S., Chowdhury, S. R., Sen, R., Roy, D., Adhikari, B., Enhancement of tensile strength of lignocellulosic jute fibers by alkali-steam treatment. Bioresour. Technol. 101, 3182–3187, 2010.
[3] Shahidullah, Md., Rabiul Islam, Md., Alamgir Sayeed, M. M., Kamal Uddin, Md., Abdullah, A. B. M., Improvement of Light Fastness Properties of Dyed Jute Fabrics Through Pretreatment. J. Applied Sci. 7, 3791-3795, 2007.
[4] Islam, M. N., Ali, M., Kamal Uddin, M., Ahmed, K., Sarwaruddin-Chowdhury, A.M., Studies on the Physico-mechanical Properties of the Modified Jute Fibre by Sulphonation Method. Pak. J. Biol. Sci. 9, 1424-1429, 2006.
[5] Zolriasatein, A. A.,
Yazdanshenas, M. E.,
Khajavi, R.,
Rashidi, A.,
Effects of alkali and ultraviolet treatment on colour strength and mechanical properties of jute yarn. Color. Technol. 128, 395–402, 2012.
[6] Samanta, A. K., Singhee, D., Basu, G., Biswas S. K., Thermal behaviour and structural features of chemically and bio-chemically modified jute substrate. Indian J. Fibre Text. Res., 32, 355-365, 2007.
[7] Zolriasatein, A. A.,
Hajilari, M., Effect of endo-1,4-β-xylanase enzyme on appearance and physical properties of jute yarn.
Res. J. Pharm. Biol. Chem. Sci. 6, 862-868, 2015.
[8] Zolriasatein, A. A.,
Yazdanshenas, M. E., Changes in composition, appearance, physical, and dyeing properties of jute yarn after bio-pretreatment with laccase, xylanase, cellulase, and pectinase enzymes,
J. Text. I., 105(6), 609-619, 2014.
[9] Zolriasatein, A. A.,
Yazdanshenas, M. E.,
Khajavi, R.,
Rashidi, A. Effects of commercial laccase enzyme on appearance and light fastness of lingocellulosic jute yarn.
Asian J. Chem., 23, 4677-4680, 2011.
[10] Arifuzzaman Khan, G. M., Dyeing of Grafted Jute Fibre with Reactive Dyes and Its Improved Properties. Thammasat Int. J. Sc. Tech., , 12(3), 8-13, 2007.
[11] Mondal, I. H., Grafting of Methyl Acrylate and Methyl Methacrylate onto Jute fiber: Physico-Chemical Characteristics of the Grafted Jute. Journal of Engineeered Fibers and Fabrics. 8, 42-50, 2013.
[12] Das, D., Munshi,, R. Finishing of jute using methacrylic acid in presence of tetrasodium pyrophosphate and potassium persulphate as catalysts under thermal treatment. Indian J. Fibre Text. Res. 34, 82-90, 2009.
[14] Chattopadhyay, D. P., Patel, B. H., Studies on the Effect of Nano Zinc Treatment on Jute Fabric. J. Textile Sci. Eng. 5(2), 1-5, 2015.
[16] Zolriasatein, A. A.,
Yazdanshenas, M. E.,
Khajavi, R.,
Rashidi, A., Najafi, F.,
The use of poly(amidoamine) dendrimer in modification of jute for improving dyeing properties of reactive dyes. J. Appl. Polym. Sci. 127, 4203–4210, 2013.
[17] Dong, Y., Bai, Z., Zhang, L., Liu, R., Zhu, T., Finishing of cotton fabrics with aqueous nano-titanium dioxide dispersion and the decomposition of gaseous ammonia by ultra violet irradiation, J. Appl. Polym. Sci., 99, 286-291, 2006.
[18] Nersisyan, H.H., Lee, J.H., Son, H.T., Won, C.W., Maeng, V, A new and effective chemical reduction method for preparation of nano sized silver powder and colloid dispersion, Mater. Res. Bull., 38, 949-956, 2003.
[19] Ayyad, O., Rohas, D.M., Sole, J.O., Romero, P.G., From silver nano particles to nano structures through matrix chemistry, J. Nanopart. Res., 19, 9620-9623, 2009.
[20] Courrol, L.C., Silva, F.R.D.O., Gomes, L., A simple method to synthesize silver nano particles by photo-reduction, Colloids Surf. A, 305, 54-57, 2007.
[21] Xie, Y., Ye, R., Liu, H., Synthesis of silver nano particles in reverse micelles stabilized by natural bio surfactant, Colloids Surf. A, 279,175-178, 2006.
[22] Sathishkumar, M., Sneha, K., Won, S.W., Cho, C.W., Kim, S., Yun, Y.S.,
Cinnamon zeylanicum bark extract and powder mediated green synthesis of nano-crystalline silver particles and its bactericidal activity,
Colloids Surf. B, 73, 332-338, 2009.
[23] Kalishwaralal, K., Deepak, V., Pandian, S.R.K., Kottaisamy, M., Barath-ManiKanth, S., Kartikeyan, B., Gurunathan, S., Biosynthesis of silver and gold nanoparticles using Brevibacterium casei, Colloids Surf. B, 77, 257-262, 2010.
[24] Zeiri, L., Bronk, B.V., Shabtai, Y., Czégé, J., Efrima, S., Silver metal induced surface enhanced Raman of bacteria, Colloids Surf. A, 208, 357-362, 2002.
[25] Shahverdi, A.R., Minaeian, S., Shahverdi, H.R., Jamalifar, H., Nohi, A.A., Rapid synthesis of silver nano particles using culture supernatants of Enterobacteria: a novel biological approach, Process Biochem. 42, 919-923, 2007.
[26] Duran, N., Marcato, P.D. , De Souza, G.I.H., Alves, O.L., Esposito, E., Antibacterial effect of silver nano particles produced by fungal process on textile fabrics and their effluent treatment. J. Biomed. Nanotechnol., 3, 203-208, 2007.
[27] Kaur, p., Saxena, M., Vadehra, D.V., Plasmid mediated resistance to silver ions in Escherichia coli. Indian J. Med. Res. 82, 122-126, 1985.
[28] Barani, H., Montazer, M., Samadi, N., Toliyat, T.,
In situ synthesis of nano silver/lecithin on wool: Enhancing nanoparticles diffusion,
Colloids and Surfaces B: Biointerfaces, 92, 9-15, 2012.
[29] Allahyarzadeh, V., Montazer, M., Hemmati Nejad, N., Samadi, N.,
In situ synthesis of nano silver on polyester using NaOH/Nano TiO2.. J Appl Polym Sci, 129, 892-900, 2013.
[30] Sharma, V.K., Yngard, R.A., Lin, Y., Silver Nanoparticles: green synthesis and their antimicrobial activity. Adv Colloid Interface, 145, 83-96, 2009.
[31] El-Shishtawy, R.M., Asiri, A.M., Abdelwahed, N.A.M., Al-Otaibi, M.M., In situ production of silver nano particle on cotton fabric and its antimicrobial evaluation. Cellulose, 18, 75-82, 2011.
[32] Marambio-Jones, C., Hoek, E.M.V., A review of the antibacterial effects of silver Nanomaterials and potential implications for human health and the environment. J. Nanopart. Res, 12, 1531-1551, 2010.
[33] Montazer, M., Alimohammadi, F., Shamei, A., Rahimi, M.K., In situ synthesis of nano silver on cotton using Tollens’reagent. Carbohydr Polym, 87, 1706-1712, 2012.
[34] Babaahmadi, V,, Montazer M,, A new route to synthesis silver nanoparticles on polyamide fabric using stannous chloride. J. Text. Inst. 106, 970-977, 2015.
[35] Hosseinkhani, M., Montazer, M., Eskandarnejad, S., Rahimi, M.K.,
Simultaneous in situ synthesis of nano silver and wool fiber fineness enhancement using sulphur based reducing agents, Colloids and Surfaces A: Physicochem.
Eng. Aspects, 415, 431- 438, 2012.
[37] Masoumi, A., Ghaemy, M., Adsorption of heavy metal ions and azo dyes by crosslinked nanochelating resins based on poly(methylmethacrylate-co-maleic anhydride). eXPRESS Polymer Letters, 8(3), 187-196, 2014.
[38] Babaahmadi, V., Montazer, M,, Ghanbarafjeh, M,, Samadi, N,, Simultaneous in situ synthesis of nanosilver and dyeing of polyamide 6 fabric. Indian Journal of Fibre & Textile Research, 43, 488-494, 2018.
[41]Hassan, MM., Saifullah, K., Ultrasound-assisted pre-treatment and dyeing of jute fabrics with reactive and basic dyes.
Ultrasonics Sonochemistry, 40(Pt A), 488-496, 2018.
[42] Gupta, D., Kumari, S. and Gulrajani, M., Dyeing studies with hydroxyanthraquinones extracted from Indian madder. Part 1: Dyeing of nylon with purpurin. Coloration Technology, 117, 328-332, 2001.
[43] Mao, Y.H., Guan, Y., Zheng, Q.K., Feng, X.N., Wang, XX., Adsorption thermodynamic and kinetic of disperse dye on cotton fiber modified with tolylene diisocyanate derivative. Cellulose, 18, 271-279, 2011.
[44] Arora, A., Gupta, D.,Rastogi, D.,
Gulrajani, M.L., Kinetics and thermodynamics of dye extracted from Arnebia nobilis Rech.f. on wool.
Indian Journal of Fibre & Textile Research, 37(2), 178-182, 2012.
[45] Rattanaphani, S., Chairat, M., Bremner, J.B., Rattanaphani, V. An Adsorption and Thermodynamic Study of Lac Dyeing on Cotton Pretreated with Chitosan. Dyes and Pigments, 72, 88-96, 2007.
[46] Jafari, N., Karimi, L., Mirjalili, M., Derakhshan, S. J., Effect of silver particle size on color and antibacterial properties of silk and cotton fabrics. Fiber Polym. 17, 888-895, 2016.
[47] حسین زائر ثابت; پیمان ولی پور; حبیب اله طیبی. "جذب رنگزای راکتیو قرمز 198 بر روی نانو ساختار مغناطیسی سیلیکاتی: مطالعات جذب و مدل سازی". علوم و فناوری نساجی و پوشاک، دوره 11، شماره 3، صفحه 17-1، 1401.
[48] مهدی صادقی; حبیب اله طیبی; مجید مرادیان; علی میرابی. "سنتز نانو کامپوزیت SBA-15/ZIF-8 جهت حذف رنگ راکتیو قرمز 198 از فاضلاب نساجی". علوم و فناوری نساجی و پوشاک، دوره10، شماره 1، صفحه 32-25، 1400.
[49] علی اکبر ذوالریاستین; نیلوفر نصرتی. "جداسازی رنگ از پساب های نساجی با به کارگیری حلال آلی و سطح فعال ها". علوم و فناوری نساجی و پوشاک، دوره11، شماره 3، صفحه 40-18، 1401.
[50] مرجان ولی زاده; پیمان ولی پور; رامین خواجوی; حمید اکبرپور. "بررسی مقایسهای ایزوترم جذب رنگزای راکتیو یک عاملی و دو عاملی روی پارچه سلولزی با استفاده از مواد تعاونی اوره، دیسپرس کننده و نفوذ دهنده". علوم و فناوری نساجی و پوشاک، دوره10، شماره 3، صفحه 19-1، 1400.
[51] علی اکبر ذوالریاستین; مرجان غزال نیا. "تاثیر اشعه ماوراء بنفش بر خصوصیات ترمودینامیکی، سینتیکی و ایزوترم جذب رنگینه مستقیم روی الیاف سلولز استات". علوم و فناوری نساجی و پوشاک، دوره11، شماره 1، صفحه 27-11، 1401
[52] Carbone, G.G., Serra, A., Buccolieri, A., Manno, D.E. A silver nanoparticle-poly(methyl methacrylate) based colorimetric sensor for the detection of hydrogen peroxide. Heliyon, 5(11), e02887, 2019.
[53] Maria, Z., Ioannis, E., Nikolaos, N., Eforia, T. Synthesis, characterization and application of anionic metal complex azo dyes as potential substitutes for Cr-complex dyes. Textile Research Journal, 84(19), 2036-2044, 2014.
[54] Mondal, M.I.H., Mofakkharul Islam M., Md. Khademul Islam, M., Firoz Ahmed M.F., Dyeing Behaviour and Colour Fastness Characteristics of Bleached, AM- and AA-modified Jute Fibres Dyed with Reactive Dyes. American Journal of Polymer Science, 6(2): 39-45, 2016.
[55] Mondal, M.I.H., Khan, M.M.R., Islam, M.M. et al. Characterization of grafted jute fiber using acrylate monomers pretreated with alkali.
Fashion and Textiles 3, 9, 2016.
[56] Altındag, IG., Dincer A., Becerik, S., Eser, A., Aydemir, T., Poly(methyl methacrylate-ethylene glycol dimethacrylate) copolymer for adsorptive removal of erythrosine dye from aqueous solution, Desalination and Water Treatment, 54(6), 1717-1726,.2015.
[57] Ara, ZA., Wang, L., Padhye, R., Wang, X. A Comparative Study of Nanofibers from Regenerated Cotton and Jute, Journal of Natural Fibers, 20(1), 1-11, 2023.