Hi, I am Hossein Barani, My LiveDNA is 98.17358
 
   
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Dr. Hossein Barani
 
Highest Degree: Ph.D. in Textile Engineering from Amirkabir University of Technology, Iran
 
Institute: University of Birjand, Iran
 
Area of Interest: Engineering
  •   Molecular Structures
  •   Textile Materials
  •   Polymerization
  •   Fabrication
 
URL: http://livedna.org/98.17358
 
My SELECTED Publications
1:   Barani, H. and A. Calvimontes, 2014. Effects of oxygen plasma treatment on the physical and chemical properties of wool fiber surface. Plasma Chem. Plasma Process., 34: 1291-1302.
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2:   Barani, H. and A. Haji, 2015. Analysis of structural transformation in wool fiber resulting from oxygen plasma treatment using vibrational spectroscopy. J. Mol. Structure, 1079: 35-40.
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3:   Barani, H. and H. Maleki, 2011. Plasma and ultrasonic process in dyeing of wool fibers with madder in presence of lecithin. J. Dispersion Sci. Technol., 32: 1191-1199.
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4:   Barani, H. and M. Montazer, 2008. A review on applications of liposomes in textile processing. J. Liposome Res., 18: 249-262.
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5:   Barani, H. and M.N. Boroumand, 2016. Alkaline treatment effect on the properties of in-situ synthesised ZnO nanoparticles on cotton fabric. IET Nanobiotechnol., 10: 162-168.
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6:   Barani, H. and M.N. Boroumand, 2017. Application of silver nanoparticles as antibacterial mordant in wool dyeing with Madder: Synthesis, antibacterial activity and color characteristic. J. Fiber Polymers, 18: 658-665.
7:   Barani, H. and S. Peyvandi, 2010. Enhanced deep coloring of micro polyester fabric. Mater. Sci., 16: 138-143.
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8:   Barani, H. and S. Rahimpour, 2014. The dyeing procedures evaluation of wool fibers with Prangos ferulacea and fastness characteristics. Adv. Mater. Sci. Eng., Vol. 2014. 10.1155/2014/497278.
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9:   Barani, H. and S.H. Bahrami, 2007. Investigation on polyacrylonitrile/cellulose acetate blends. Macromolecular Res., 15: 605-609.
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10:   Barani, H. and S.H. Bahrami, 2007. Preparation of polyacrylonitrile and cellulose acetate blend fibers through wet‐spinning. J. Applied Polymer Sci., 103: 2000-2005.
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11:   Barani, H., 2014. Antibacterial continuous nanofibrous hybrid yarn through in situ synthesis of silver nanoparticles: Preparation and characterization. Mater. Sci. Eng. C, 43: 50-57.
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12:   Barani, H., 2014. Preparation of antibacterial coating based on in situ synthesis of ZnO/SiO2 hybrid nanocomposite on cotton fabric. Applied Surface Sci., 320: 429-434.
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13:   Barani, H., 2014. Surface activation of cotton fiber by seeding silver nanoparticles and in situ synthesizing ZnO nanoparticles. New J. Chem., 38: 4365-4370.
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14:   Barani, H., M. Montazer, A. Calvimontes and V. Dutschk, 2013. Surface roughness and wettability of wool fabrics loaded with silver nanoparticles: Influence of synthesis and application methods. Textile Res. J., 83: 1310-1318.
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15:   Barani, H., M. Montazer, H.G. Braun and V. Dutschk, 2014. Stability of colloidal silver nanoparticles trapped in lipid bilayer: Effect of lecithin concentration and applied temperature. IET Nanobiotechnol., 8: 282-289.
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16:   Barani, H., M. Montazer, N. Samadi and T. Toliyat, 2011. Nano silver entrapped in phospholipids membrane: Synthesis, characteristics and antibacterial kinetics. Mol. Membrane Biol., 28: 206-215.
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17:   Barani, H., M. Montazer, N. Samadi and T. Toliyat, 2012. In situ synthesis of nano silver/lecithin on wool: Enhancing nanoparticles diffusion. Colloids Surfaces B: Biointerfaces, 92: 9-15.
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18:   Barani, H., M. Montazer, N. Samadi, T. Toliyat, M.K. Zadeh and B. de Smeth, 2014. Application of nano silver/lecithin on wool through various methods: Antibacterial properties and cell toxicity. J. Eng. Fabrics Fibers, 9: 126-134.
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19:   Barani, H., M. Montazer, T. Toliyat and N. Samadi, 2010. Synthesis of Ag-liposome nano composites. J. Liposome Res., 20: 323-329.
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20:   Barani, H., M.N. Broumand, A. Haji and M. Kazemipur, 2012. Optimization of dyeing wool fibers procedure with Isatis tinctoria by response surface methodology. J. Nat. Fibers, 9: 73-86.
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21:   Barani, H., Z. JamshidDoost and S. Rafiei, 2017. Optimization of wool fibers dyeing with saffron petal to produce blue shade. J. Color Sci. Technol., 10: 259-266.
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22:   Boroumand, M.N., M. Montazer and H. Barani, 2016. Biocompatible stabilize silver nanoparticles and their antimicrobial activity. Adv. Sci. Lett., 22: 616-621.
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23:   Haji, A., H. Barani and S. Qavamnia, 2013. In situ synthesis and loading of silver nanoparticles on cotton fabric. Ind. Textila, 64: 47-53.
24:   Haji, A., H. Barani and S.S. Qavamnia, 2013. In situ synthesis of silver nanoparticles onto cotton fibres modified with plasma treatment and acrylic acid grafting. Micro Nano Lett., 8: 315-318.