Access the full text.
Sign up today, get DeepDyve free for 14 days.
citation_title=“Colour Fastness to Washing (1993)
“Colour Fastness to Washing: Characterization of Textile Colorants”
S. Burkinshaw, Y. Son (2010)
The dyeing of supermicrofibre nylon with acid and vat dyesDyes and Pigments, 87
B. K. G.G. Theng (2006)
“Developments in Clay Science”
P. Brown, K. Stevens (2007)
Nanofibers and Nanotechnology in Textiles
H. Völz (2001)
Industrial Color Testing
A. Hassabo, A. Nada, H. Ibrahim, N. Abou-Zeid (2015)
Impregnation of silver nanoparticles into polysaccharide substrates and their properties.Carbohydrate polymers, 122
I. Sondi, V. Pravdić (1998)
THE COLLOID AND SURFACE CHEMISTRY OF CLAYS IN NATURAL WATERSCroatica Chemica Acta, 71
(2005)
MSc. Dissertation
A. Mohamed, M. El-Naggar, T. Shaheen, A. Hassabo (2016)
Novel nano polymeric system containing biosynthesized core shell silver/silica nanoparticles for functionalization of cellulosic based materialMicrosystem Technologies, 22
Liang-guo Yan, Qin Li-lu, Haiqin Yu, L. Shuang, Ran-ran Shan, B. Du (2015)
Adsorption of acid dyes from aqueous solution by CTMAB modified bentonite: Kinetic and isotherm modelingJournal of Molecular Liquids, 211
A. Nada, A. Hassabo, A. Mohamed, M. Mounier, N. Zeid (2016)
Liposomal Microencapsulation of Rodent-repelling Agents onto Jute Burlaps: Assessment of Cytotoxicity and Rat Behavioral Test -journal of applied pharmaceutical science, 6
(2011)
“Handbook of Textile and Industrial Dyeing: Volume 1: Principles, Processes and Types of Dyes”
(2005)
“Clays”
M. A. El-Sheikh (2006)
“3rd International Conference of Textile Research Division, NRC
F. Bergaya, B. Theng, G. Lagaly (2006)
Handbook of clay science
A. Hassabo, Aleksandra Mendrek, C. Popescu, H. Keul, M. Möller (2014)
Deposition of Functionalized Polyethylenimine-Dye onto Cotton and Wool FibresResearch journal of textile and apparel, 18
J. Xin (2006)
Total Colour Management in Textiles
B. Micó-Vicent, Jorge Jordán, F. Martínez-Verdú, R. Balart (2016)
A combination of three surface modifiers for the optimal generation and application of natural hybrid nanopigments in a biodegradable resinJournal of Materials Science, 52
R. McDonald (1987)
Colour Physics for Industry
M. Gouda (2012)
“Nanotechnology in Textile with Contribution to Pigment Printing”
A. Hebeish, M. Rekaby, A. Shahin, A. Ragheb (2016)
Novel Nanopigment Derived from Vat dyes for Printing Cotton Fabrics
(2011)
“Handbook of Textile and Industrial Dyeing: Volume 2: Applications of Dyes”
Fengyu She, Dong-ming Qi, Z. Chen, J. Shao, Lei Yang (2012)
Preparation of Organic Pigment Microcapsules and its Application in Pigment Printing of Silk FabricAdvanced Materials Research, 441
D. Thetford, A. Chorlton (2004)
Investigation of vat dyes as potential high performance pigmentsDyes and Pigments, 61
Y. Cai, M. Pailthorpe, S. David (1999)
A New Method for Improving the Dyeability of Cotton with Reactive DyesTextile Research Journal, 69
K. Mehta, M. Bhavsar, P. Vora, H. Shah (1984)
Estimation of the Kubelka—Munk scattering coefficient from single particle scattering parametersDyes and Pigments, 5
M. Abo‐Shosha, F. Nassar, K. Haggag, Z. El-Sayed, A. Hassabo (2009)
Improvement on Hydrophobicity of Synthetic Textiles by Plasma Treatment – A ReviewResearch journal of textile and apparel, 13
Nabil Ibrahim, A. Nada, A. Hassabo, B. Eid, A. El-Deen, N. Abou-Zeid (2017)
Effect of different capping agents on physicochemical and antimicrobial properties of ZnO nanoparticlesChemical Papers, 71
(2010)
“Colour Measurement”
(2011)
“Natural Dyes”
Ulthas Nimkar (2007)
Colour fastness to perspiration, 54
Ruihua Huang, Bo Wang, Bingchao Yang, Dongsheng Zheng, Zengqiang Zhang (2011)
Equilibrium, kinetic and thermodynamic studies of adsorption of Cd(II) from aqueous solution onto HACC–bentoniteDesalination, 280
Xuefeng Liang, Yingming Xu, Xin Tan, Lin Wang, Yuebing Sun, Dasong Lin, Yang Sun, Xuwen Qin, Qian Wang (2013)
Heavy metal adsorbents mercapto and amino functionalized palygorskite: Preparation and characterizationColloids and Surfaces A: Physicochemical and Engineering Aspects, 426
P. Kubelka (1931)
Ein Beitrag zur Optik der Farban striche, 12
G. Lagaly, M. Ogawa, I. Dékány (2013)
Clay mineral-organic interactions, 5
A. Roessler, Xiunan Jin (2003)
State of the art technologies and new electrochemical methods for the reduction of vat dyesDyes and Pigments, 59
“Colour Fastness to Light AATCC (1993)
Carbon–Arc Lamb
Dongwei Hou, Guoping Zhang, R. Pant, Zhong-xin Wei, Shuilong Shen (2016)
Micromechanical Properties of Nanostructured Clay-Oxide Multilayers Synthesized by Layer-by-Layer Self-AssemblyNanomaterials, 6
H. Ujiie (2006)
Digital printing of textiles
M. El-Naggar, A. Hassabo, A. Mohamed, T. Shaheen (2017)
Surface modification of SiO2 coated ZnO nanoparticles for multifunctional cotton fabrics.Journal of colloid and interface science, 498
A. Mohamed, A. Hassabo, S. Shaarawy, A. Hebeish (2017)
Benign development of cotton with antibacterial activity and metal sorpability through introduction amino triazole moieties and AgNPs in cotton structure pre-treated with periodate.Carbohydrate polymers, 178
C. Yuen, Yi Li, S. Ku, C. Mak, C. Kan (2005)
Experimental study on fabric water repellency using nanotechnologyAatcc Review, 5
M. Clark (2011)
Handbook of textile and industrial dyeing
A. Mohamed, M. El-Naggar, T. Shaheen, A. Hassabo (2017)
Laminating of chemically modified silan based nanosols for advanced functionalization of cotton textiles.International journal of biological macromolecules, 95
A. Sawhney, B. Condon, K. Singh, S. Pang, G. Li, D. Hui (2008)
Modern Applications of Nanotechnology in TextilesTextile Research Journal, 78
Jung Lee, W. Shim, I. Kim, J. Kim (2005)
Dyeing and fastness properties of vat dyes on a novel regenerated cellulosic fiberFibers and Polymers, 6
M. Božič, V. Kokol (2008)
Ecological alternatives to the reduction and oxidation processes in dyeing with vat and sulphur dyesDyes and Pigments, 76
A. Roessler, D. Crettenand (2004)
Direct electrochemical reduction of vat dyes in a fixed bed of graphite granulesDyes and Pigments, 63
citation_title=“Colour Fastness to Crocking”, citation_inbook_title=American Association of Textile Chemists and Colorists, citation_publication_date= (1993)
“Colour Fastness to Crocking”
“Clay Minerals” Wikipedia the Free Encyclopedia
//en.wikipedia.org/wiki/Clay_minerals.
Abstract New benign colorant nanoparticles were innovated. The innovation is based on reacting the Indigo Blue Vat Dye with a natural clay named montmorillonite (K10) under sonication. A mixture of the dye and clay (1:1) at a ratio was used. The obtained new colorant nanoparticles in the form of hybrid nanocomposites were applied as a nano pigment in printing on various fabrics. The new colorant succeeded in printing silk, wool, cotton, polyester, and nylon as well as their different blends in the presence and absence of binder. Prints of the new colorant were compared with those obtained using commercial pigment. The effect of adding different amounts of binder to the printing paste on major technical properties of the prints was also investigated. Evaluation of the various printed fabrics was performed through monitoring color strength (K/S), TEM images, SEM micrographs, and overall fastness properties.
Fibers and Polymers – Springer Journals
Published: Jan 1, 2019
Keywords: Polymer Sciences
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.