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Changes in Structure and Content Humic Substances in Soil During the Laboratory Simulated Fires

, M.D. (2004): Elemental compositions, FT-IR spectra and thermal behavior of sedimentary fulvic and humic acids from aquatic and terrestrial environments. Geochemical Journal , 38, p. 255–264. GLASS, D.W.; JOHNSON, D.W.; BLANK, R.R.; MILLER, W.W. (2008): Factors affecting mineral nitrogen transformation by soil heating: a laboratory – simulated fire study. Soil Science , 173, 6, p. 387–400. GONZÁLEZ-PÉREZ, J.A.; GONZÁLEZ-VILA, F.J.; ALMENDROS, G.; KNICKER, H. (2004): The effect of fire on soil organic matter – a review. Environment International 30

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Physicochemical Characterization Of The Multiuse Medical Textiles In Surgery And As Packaging Material In Medical Sterilization

., Qian, G. (2009). Analysis of the chemical composition of cotton seed coat by Fourier-transform infrared (FT-IR) microspectroscopy. Cellulose, 16, 1099-1107. DOI 10.1007/s10570-009-9349-2 [16] Edwards, H. G. M., Farwell, D. W., Webster, D. (1997). FT Raman microscopy of untreated natural plant fibres. Spectrochimica Acta Part A, 53, 2383-2392.

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Morphology and FT IR spectra of porous silicon

), 475709. [9] M. J. Sailor and E. J. Lee, “Surface Chemistry of Luminescent Silicon Nanocrystallites”, Advanced Materials , vol. 9, no. 10 (1997), 783–793. [10] C. Q. Lai, W. Zheng, W. K. Choi and C. V. Thompson, “Metal Assisted Anodic Etching of Silicon”, Nanoscale , vol. 7 (2015), 11123–11134. [11] Z. H. Wang, T. Urisu, H. Watanabe, K. Ooi, G. R. Rao, S. Nanbu, J. Maki and M. Aoyagi, “Assignment of Surface IR Absorption Spectra Observed the Oxidation Reactions: 2H + H 2 O/Si(100) and H 2 O + H/Si(100)”, Surface Science , vol. 57, no. 5 (2005) 330

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Performance Evaluation of Concrete using Marble Mining Waste

. Lin, N. Zhang, Experimental exploration of the waterproofing mechanism of inorganic sodium silicate-based concrete sealers, Constr. Build. Mater. 104 (2016) 276-283. doi: 10.1016/j.conbuildmat.2015.12.069. [25] M. Horgnies, P. Willieme, O. Gabet, Influence of the surface properties of concrete on the adhesion of coating: Characterization of the interface by peel test and FT-IR spectroscopy, Prog. Org. Coatings. 72 (2011) 360-379. doi: 10.1016/j.porgcoat.2011.05.009.

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Photostability of TiO2-Coated Wool Fibers Exposed to Ultraviolet B, Ultraviolet A, and Visible Light Irradiation

prevention. Coloration Technology, 122(6), 301-316. [17] Riedel, J. H., Hocker, H. (1996). Multifunctional polymeric UV absorbers for photostabilization of wool. Textile Research Journal, 66(11), 684-689. [18] Jones, D. C., Carr, C. M., Cooke, W. D., Lewis, D. M. (1998). Investigating the photo-oxidation of wool using FT-Raman and FT-IR spectroscopies. Textile Research Journal, 68(10), 739-748. [19] Millington, K. R., Giudice, M. D., Sun, L. (2014). Improving the photostability of bleached wool without increasing its yellowness. Coloration Technology, 130

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Basic Physical – Mechanical Properties of Geopolymers Depending on the Content of Ground Fly Ash and Fines of Sludge

flexural and compressive strength of hardened mortar. STN EN 1015-11. [25] H.W. Nugteren et al. (2009). High Strength Geopolymers from Fractionated and Pulverized Fly Ash. In World of Coal Ash Conference, May 4-7. Lexington, USA. [26] M. Chollet, M. Horgnies. (2011). Analyses of the surfaces of concrete by Raman and FT-IR spectroscopies: comparative study of hardened samples after demoulding and after organic post-treatment. Surface and Interface Analysis 43, 714-725. DOI: 10.1002/sia.3548. [27] M.M.A.B. Abdullah, et al. (2012). Fly ash-based geopolymer

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Electrospun Thermoplastic Polyurethane Mats Containing Naproxen– Cyclodextrin Inclusion Complex

hydroxypropyl-b-cyclodextrin. European Journal of Pharmaceutical Sciences. 13, 187-194. [21] Piao, Z., Lee, M., Lee, B., (2008). Colonic release and reduced intestinal tissue damage of coated tablets containing naproxen inclusion complex. International Journal of Pharmaceutics. 350, 205-211. [22] Pralhad, T. and Rajendrakumar, K., (2004). Study of freeze-dried quercetin-cyclodextrin binary systems by DSC, FT-IR, X-ray diffraction and SEM analysis. Journal of Pharmaceutical and Biomedical Analysis. 34, 333-339. [23] Szejtli, J

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Studies of Structural Changes in PAN Fibers with Various Initial Structures under the Influence of Thermal Treatment in Media

] Fester, W. (1965). Textil – Rundsch., 20, 1. [16] Koszeliew, I. W., Sokołowskij, W. H. (1993). Fibre Chemistry, 5, 8. [17] Fimcer, E., Fros, W. (1992). Fibre Chemistry, 2, 14. [18] Sawczenko, G., Bondarenko, W. M., Azarowa, M. T. (1994). Fibre Chemistry, 6, 21. [19] Azarowa, M. T., Bondarenko, W. M., Sawczenko, G. (1995). Fibre Chemistry, 1, 10. [20] Kakida, H., Tashiro, K. (1998). Mechanism and kinetics of stabilization reactions of polyacrylonitrile and related copolymers IV. Effects of atmosphere on isothermal DSC thermograms and FT-IR

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Usage of FTIR-ATR as Non-Destructive Analysis of Selected Toxic Dyes

–367. 6. C. E. SILVA, L. P. SILVA, H. G. M. EDWARDS, L. F. C. De OLIVEIRA. 2006. Diffuse reflection FTIR spectral database of dyes and pigments. Anal. Bioanal. Chem. , 386 (7–8), pp. 2183–2191. 7. F. AHMED, R. DEWANI, M. K. PERVEZ, S. J. MAHBOOB, S. A. SOOMRO. 2016. Non-destructive FT-IR analysis of mono azo dyes . 48 (1), pp. 71–77. 8. A. K. and H. R. NAFISUR RAHMAN. 2012. Studies on the Development of Spectrophotometric Method for the Determination of. Quim. Nov. , 35 (2), pp. 392–397. 9. Z. L. YANEVA, N. V GEORGIEVA. 2012. Insights into Congo

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Textile Fiber Identification Using Near-Infrared Spectroscopy and Pattern Recognition

] Ji, W., Bai, L., Ji, M. (2010). A method for quantifying mixed goat cashmere and sheep wool. Forensic Science International, 208(1-3), 139-142. [11] Tang, M., Zhang, W., Zhou, H. (2014). A real-time PCR method for quantifying mixed cashmere and wool based on hair mitochondrial DNA. Textile Research Journal, 84(15), 1612-1621. [12] Molloy, J. F., Naftaly, M., Andreev, Y. M., et al. (2014). Identification of textile fiber by IR and Raman spectroscopy. International Conference on Infrared, Millimeter, and Terahertz Waves, IEEE 1-2. [13] Tong, M., Cao

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