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TS-BTPhen as a promising hydrophilic complexing agent for selective Am(III) separation by solvent extraction

., 241, 3427-3435. DOI: 10.1016/j.nucengdes.2011.03.011. 16. Lewis, F. W., Harwood, L. M., Hudson, M. J., Drew, M. G. B., Hubscher-Bruder, V., Videva, V., Arnaud-Neu, F., Stamberg, K., & Vyas, S. (2013). BTBPs versus BTPhens: Some reasons for their differences in properties concerning the partitioning of minor actinides and the advantages of BTPhens. Inorg. Chem., 52, 4993-5005. DOI: 10.1021/ic3026842. 17. Iqbal, M., Huskens, J., Verboom, W., Sypula, M., & Modolo, G. (2010). Synthesis and Am/Eu extraction of novel TODGA derivatives

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Nitrogen Compounds in Tobacco Smoke/Stickstoffverbindungen des Tabakrauches

). 52· Kaburaki, Y., Shigematsu, H., und Kusakabe, H.: Nippon Senbai Kosha Chuo Kenkyusho Kenkyu Hokoku 110, 127 (1968); ref.: C. A. 69, 93 765 (1968). 53· Keith, C. H., und Tesh, P. G.: Tob. Sei. 9, 61 (1965). 54· Kobashi, Y., Watanabe, M., und Yamashita, Y.: Agr. Biol. Chem. 27, A 25 (1963). 55· Kröller, E.: Dtsch. Lebensm. Rdsch. 63, 303 (1967). 56. Kuffner, F., Schick, K., und Bühn, H.: Mh. Chemie 87, 749 (1956). 57· Kuhn, H.: Fachl. Mitt. österr. Tabakregie No. 5, 73 (1964). 58

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Principles of positron porosimetry

). Porosity of polymer materials by various techniques. J. Porous Mat ., 16 (6), 691–698. DOI: 10.1007/s10934-008-9250-7. 10. Zaleski, R., Kierys, A., Grochowicz, M., Dziadosz, M., & Goworek, J. (2011). Synthesis and characterization of nanostructural polymer-silica composite: Positron annihilation lifetime spectroscopy study. J. Colloid Interf. Sci ., 358 (1), 268–276. DOI: 10.1016/j.jcis.2011.03.008. 11. Kilburn, D., Sokol, P. E., Sakai, V. G., & Alam, M. A. (2008). Confinement induces both higher free volume and lower molecular mobility in glycerol. Appl

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A Simultaneous Analytical Method to Profile Non-Volatile Components with Low Polarity Elucidating Differences Between Tobacco Leaves Using Atmospheric Pressure Chemical Ionization Mass Spectrometry Detection

. Rowland, R.L.: Flue-Cured Tobacco. III. Solanachromene and α-Tocopherol; J. Am. Chem. Soc. 80 (1958) 6130-6133; DOI: 10.1021/ja01555a057. 17. Ishida, N.: A Method for Simultaneous Analysis of Phytosterols and Phytosterol Esters in Tobacco Leaves Using Non-Aqueous Reversed Phase Chromatography and Atmospheric Pressure Chemical Ionization Mass Spectrometry Detector; J. Chromatogr. A 1340 (2014) 99-108; DOI: 10.1016/j.chroma.2014.03.021. 18.Want, E.J., A. Nordström, H. Morita, and G. Siuzdak: From Exogenous to Endogenous: The Inevitable

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Uranium and neodymium partitioning in alkali chloride melts using low-melting gallium-based alloys

alloy Ga-Sn. Rasplavy, 5, 7-12. 16. Volkovich, V. A., Maltsev, D. S., Yamshchikov, L. F., Melchakov, S. Yu., Shchetinskiy, A. V., Osipenko, A. G., & Kormilitsyn, M. V. (2013). Thermodynamic properties of uranium in Ga-In based alloys. J. Nucl. Mater., 438, 94-98. DOI: 10.1016/j.jnucmat. 2013.03.016. 17. Volkovich, V. A., Maltsev, D. S., Yamshchikov, L. F., & Osipenko, A. G. (2015). Thermodynamic properties of uranium in liquid gallium, indium and their alloys. J. Nucl. Mater., 464, 263-269. DOI: 10.1016/j. jnucmat.2015

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Complex analysis of uniaxial compressive tests of the Mórágy granitic rock formation (Hungary)

.05 0.28 184.59 394.9 BK1-3_U-03 0.19 69.164 0.065 71.75 0.14 132.66 0.22 133.62 517.6 BK1-3_U-04 0.18 71.860 0.045 47.93 0.113 112.28 0.18 153.60 467.8 BK1-3_U-08 0.23 70.137 0.059 80.36 0.147 142.79 0.22 172.55 406.5 BK1-3_U-12 0.25 57.425 0.066 67.99 0.13 134.11 0.27 135.14 424.9 BK2-1_U-03 0.21 74.228 0.057 74.61 0.09 131.78 0.19 146.65 506.2 BK2-3_U-07 0.28 77.332 0.036 59.84 0.068 119.12 0.19 143.71 538.1 BK2-3_U-15 0

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The MAS NMR study of solid solutions based on the YAG crystal

Lacaillerie, J.-B., Fretigny, Ch., & Massiot, D. (2008). MAS NMR spectra of quadrupolar nuclei in disordered solids: The Czjzek model. J. Magn. Reson ., 192 , 244–251. DOI: 10.1016/j.jmr.2008.03.001. 21. Menzer, G. (1928). Die kristallstruktur der granate. Z. Kristallographie , 69 , 300–396. 22. Geller, S. (1967). Crystal chemistry of the garnets. Z. Kristallographie , 125 , 1–47. 23. Charnaya, E. V., Grigoreva, N. A., Ivanov, S. N., Kasperovich, V. S., Khazanov, E. N., & Taranov, A. V. (1995). Structure and ordering of mixed aluminates Y 1− x Er x

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Degradation and detoxification of 2-chlorophenol aqueous solutions using ionizing gamma radiation

: 10.1016/S1093-0191(03)00032-7. 36. Schmid, S., Krajnik, P., Quint, R. M., & Solar, S. (1997). Degradation of monochlorophenols by γ-irradiation. Radiat. Phys. Chem. , 50 (5), 493–502. DOI: 10.1016/S0969-806X(97)00075-3. 37. Torun, M., Abbasova, D., Solpan, D., & Guven, O. (2014). Caffeine degradation in water by gamma irradiation, ozonation and ozonation/gamma irradiation. Nukleonika , 59 (1), 25–35. DOI: 10.2478/nuka-2014-0004. 38. Getoff, N., & Solar, S. (1986). Radiolysis and pulse radiolysis of chlorinated phenols in aqueous solutions

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Thoron emanation and exhalation of Slovenian soils determined by a PIC detector-equipped radon monitor

radon exhalation of concrete containing coal fly ash. Constr. Build. Mater. , 25 (8), 3404–3409. 10.1016/j.conbuildmat.2011.03.031 . Kovler K. 2011 Legislative aspects of radiation hazards from both gamma emitters and radon exhalation of concrete containing coal fly ash Constr. Build. Mater. 25 8 3404 3409 10.1016/j.conbuildmat.2011.03.031 5. Sas, Z., Somlai, J., Jonas, J., Szeiler, G., Kovacs, T., Gyongyosi, Cs., & Sydo, T. (2013). Radiological survey of Hungarian clays; radon emanation and exhalation influential effect of sample

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Numerical Approach in Recognition of Selected Features of Rock Structure from Hybrid Hydrocarbon Reservoir Samples Based on Microtomography

.J., WARCHOL M., Koncepcja projektu otworu kierunkowego w mioceńskich utworach zapadliska przedkarpackiego, Wiadomości Naftowe i Gazownicze, 2009, 3(131), 4-13. [25] PETCHSINGTO T., KARPYN Z.T., Deterministic Modeling of Fluid Flow through a CT-scanned Fracture Using Computational Fluid Dynamics, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2009, 31(11), 897-905, DOI: 10.1080/15567030701752842. [26] PSTRUCHA A., MACHOWSKI G., KRZYŻAK A.T., Petrophysical characterization of the miocene sandstones of the carpathian

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