1. Mowafi, S., M. Rehan, H.M. Mashaly, A. Abou El-Kheir and H.E. Emam, 2017. Influence of silver nanoparticles on the fabrics functions prepared by in-situ technique. J. Text. Inst., (In Press). 10.1080/00405000.2017.1292649.
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2. Emam, H.E., N.S. El-Hawary and H.B. Ahmed, 2017. Green technology for durable finishing of viscose fibers via self-formation of AuNPs. Int. J. Biol. Macromol., 96: 697-705.
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3. Emam, H.E., M.M. El-Zawahry and H.B. Ahmed, 2017. One-pot fabrication of AgNPs, AuNPs and Ag-Au nano-alloy using cellulosic solid support for catalytic reduction application. Carbohydr. Polym., 166: 1-13.
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4. Emam, H.E., M.K. Zahran and H.B. Ahmed, 2017. Generation of biocompatible nanogold using H₂O₂-starch and their catalytic/antimicrobial activities. Eur. Polym. J., 90: 354-367.
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5. Emam, H.E., H.B. Ahmed and T. Bechtold, 2017. In-situ deposition of Cu₂O micro-needles for biologically active textiles and their release properties. Carbohydr. Polym., 165: 255-265.
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6. Emam, H.E. and R.M. Abdelhameed, 2017. In-situ modification of natural fabrics by Cu-BTC MOF for effective release of insect repellent (N,N-diethyl-3-methylbenzamide). J. Porous Mater., (In Press). 10.1007/s10934-016-0357-y.
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7. El-Sayed, A.A., M. Salama, M.H. El-Rafie and H.E. Emam, 2017. Modified rice straw as a template in syntheses of nano TiO₂ loaded on wool fibers for wastewater treatment. J. Nat. Fibers, 14: 297-309.
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8. Abdelhameed, R.M., H.E. Emam, J. Rocha and A.M. Silva, 2017. Cu-BTC metal-organic framework natural fabric composites for fuel purification. Fuel Process. Technol., 159: 306-312.
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9. Emam, H.E., N.H. Saleh, K.S. Nagy and M.K. Zahran, 2016. Instantly AgNPs deposition through facile solventless technique for poly-functional cotton fabrics. Int. J. Biol. Macromol., 84: 308-318.
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10. Emam, H.E., M. Rehan, H.M. Mashaly and H.B. Ahmed, 2016. Large scaled strategy for natural/synthetic fabrics functionalization via immediate assembly of AgNPs. Dyes Pigments, 133: 173-183.
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11. Emam, H.E. and H.B. Ahmed, 2016. Polysaccharides templates for assembly of nanosilver. Carbohydr. Polym., 135: 300-307.
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12. Ahmed, H.B., M.K. Zahran and H.E. Emam, 2016. Heatless synthesis of well dispersible Au nanoparticles using pectin biopolymer. Int. J. Biol. Macromol., 91: 208-219.
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13. Ahmed, H.B., A.M. Abdel-Mohsen and H.E. Emam, 2016. Green-assisted tool for nanogold synthesis based on alginate as a biological macromolecule. RSC Adv., 6: 73974-73985.
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14. Ahmed, H.B. and H.E. Emam, 2016. Layer by layer assembly of nanosilver for high performance cotton fabrics. Fibers Polym., 17: 418-426.
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15. Abdelhameed, R.M., H. Abdel-Gawad, M. Elshahat and H.E. Emam, 2016. Cu-BTC@cotton composite: Design and removal of ethion insecticide from water. RSC Adv., 6: 42324-42333.
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16. Rehan, M., H.M. Mashaly, S. Mowafi, A.A. El-Kheir and H.E. Emam, 2015. Multi-functional textile design using in-situ Ag NPs incorporation into natural fabric matrix. Dyes Pigments, 118: 9-17.
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17. Emam, H.E., N.H. Saleh, K.S. Nagy and M.K. Zahran, 2015. Functionalization of medical cotton by direct incorporation of silver nanoparticles. Int. J. Biol. Macromol., 78: 249-256.
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18. Emam, H.E., M.H. El-Rafie, H.B. Ahmed and M.K. Zahran, 2015. Room temperature synthesis of metallic nanosilver using acacia to impart durable biocidal effect on cotton fabrics. Fibers Polym., 16: 1676-1687.
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19. Emam, H.E. and T. Bechtold, 2015. Cotton fabrics with UV blocking properties through metal salts deposition. Applied Surf. Sci., 357: 1878-1889.
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20. Emam, H.E. and M.K. Zahran, 2015. Ag⁰ nanoparticles containing cotton fabric: Synthesis, characterization, color data and antibacterial action. Int. J. Biol. Macromol., 75: 106-114.
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21. Emam, H.E., S. Mowafi, H.M. Mashaly and M. Rehan, 2014. Production of antibacterial colored viscose fibers using in situ prepared spherical Ag nanoparticles. Carbohydr. Polym., 110: 148-155.
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22. Emam, H.E., A.P. Manian, B. Siroka, H. Duelli, P. Merschak, B. Redl and T. Bechtold, 2014. Copper(I) oxide surface modified cellulose fibers-synthesis, characterization and antimicrobial properties. Surf. Coatings Technol., 254: 344-351.
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23. Emam, H.E. and M.K. El-Bisi, 2014. Merely Ag nanoparticles using different cellulose fibers as removable reductant. Cellulose, 21: 4219-4230.
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24. Emam, H.E., A.P. Manian, B. Siroka, H. Duelli, B. Redl, A. Pipal and T. Bechtold, 2013. Treatments to impart antimicrobial activity to clothing and household cellulosic-textiles-why “Nano”-silver? J. Cleaner Prod., 39: 17-23.
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25. Bechtold, T., A.P. Manian, H.B. Ozturk, U. Paul and B. Siroka et al., 2013. Ion-interactions as driving force in polysaccharide assembly. Carbohydr. Polym., 93: 316-323.
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26. Emam, H.E., A.P. Manian, B. Siroka and T. Bechtold, 2012. Copper inclusion in cellulose using sodium D-gluconate complexes. Carbohydr. Polym., 90: 1345-1352.
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27. Hebeish, A.A., M.H. El-Rafie, F.A. Abdel-Mohdy, E.S. Abdel-Halim and H.E. Emam, 2010. Carboxymethyl cellulose for green synthesis and stabilization of silver nanoparticles. Carbohydr. Polym., 82: 933-941.
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28. Abdel-Halim, E.S., H.E. Emam and M.H. El-Rafie, 2008. Utilization of hydroxypropyl cellulose and poly(acrylic acid)-hydroxypropyl cellulose composite as thickeners for textile printing. Carbohydr. Polym., 74: 938-941.
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29. Abdel-Halim, E.S., H.E. Emam and M.H. El-Rafie, 2008. Preparation and characterization of water soluble poly(acrylic acid)-hydroxypropyl cellulose composite. Carbohydr. Polym., 74: 783-786.
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30. El-Rafie, M.H., E.S. Abdel-Halim and H.E. Emam, 2007. Utilization of industrial flax fiber waste (machine tow) for preparation of hydroxypropyl cellulose. Egypt. J. Text. Polym. Sci. Technol., 11: 197-216.