Диссертация (1150297), страница 16
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V 35 (5). P. 443-451.35.Templeton D. H., Dauben C. H. Lattice parameters of some rare earthcompounds and a set crystal radII. - Report Number: UCRL-2606. 195436.Rare Earth Elements: A Review of Production, Processing, Recycling, andAssociated Environmental Issues.
EPA 600/R-12/572. 2012. www.epa.gov/ord37.Massari S., Ruberti M. Rare earth elements as critical raw materials: Focuson international markets and future strategies // Resources Policy.2013. V.38 P. 36–43.38.Zhanheng C. Global rare earth resources and scenarios of future rare earthindustry // Journal of rare earths. 2011. V. 29 (1). P. 1-6.39.Xie F., Zhang T.A., Dreisinger D., Doyle F. A critical review on solventextraction of rare earths from aqueous Solutions // Miner.
Eng. 2014. V.56. P. 10 –28.11240.Binnemans K, Jones P.T., Blanpain B., Gerven T.V., Yang Y., Walton A.,Buchert M. Recycling of rare earths: a critical review // J. of Cleaner Production. 2013.V. 51. P. 1-22.41.Montaser A. Inductively coupled plasma mass spectrometry / A. Montaser.–USA: Wiley VCH Inc., 1998. – 1004 p.42.Roos P., Radioactiv. Environm. 2008. V. 11. 295 p.43.Аналитическая химия. Проблемы и подходы: в 2 т.
Т. 1. / под. ред.Кельнер Р.; пер. с англ. под ред. ак. Ю. А. Золотова.- М.: Мир, 2004. – 608 c44.Каттралл, Р. В. Химические сенсоры / Р. В. Каттралл; пер. с англ.к.х.н. О. О. Максиманко; под ред. д.х.н. проф. О.М. Петрухина. - М.: НаучныйМир, 2000.- 143 с.45.Oliveri P., Casolino M.C., Forina M. Chemometric brains for artificialtongues // Advances in Food and Nutrition Research.
2010. V. 61. P. 57-117.46.Будников Г.К. Основы современного электрохимического анализа /Г.К. Будников, В.Н. Майстренко, М.Р. Вяселев. - М.: Мир: Бином ЛЗ, 2003. – 592с. ил. – (Методы в химии).47.Del Valle M. Electronic Tongues Employing Electrochemical Sensors //Electroanal. 2010. V. 22 (14). P. 1539-1555.48.Бобрешова О.В. Паршина А.В. / Потенциометрические сенсоры наоснове ионообменников для анализа водных растворов. - Воронеж: Издательскополиграфический центра Воронежского государственного университета, 2012.
–154 с.49.Научный совет по аналитической химии ОХНМ РАН. Проблемыаналитической химии. Т.14. Химические сенсоры / под ред. Ю.Г.Власова. – М.:Наука, 2010. – 399 с.50.. Никольский Б.П. Ионоселективные электроды / Б. П. Никольский, Е.А. Матерова. - Л.: Химия, 1980. - 240 c.51.. Mikhelson K.N.Ion-selective electrodes. Series: Lecture Notes inChemistry, Vol. 81/ K.N.
Mikhelson, – USA: Springer, 2013. – 162 p.11352.Морф В. Принципы ионоселективных электродов и мембранныйтранспорт, пер. с англ.; под. Ред. О. М. Петрухина, М., Мир, 1985 – 280 с.53.Sharma H.K., Sharma N. Potentiometric sensor for yttrium (III) based ontin [IV] molybdotungstate as an electroactive material // Sens. Lett. 2013. V. 11(3).
P.591-595.54.Shamsipur M., Yousefi M., Hosseini M., Ganjali M.R. Lanthanum(III)PVC membrane electrodes based on 1,3,5-trithiacyclohexane // Anal. Chem. 2002. V.74(21). P. 5538-5543.55.Gupta V.K., Jain S., Chandra S. Chemical sensor for lanthanum(III)determination using aza-crown as ionophore in poly(vinyl chloride) matrix // Anal.Chim. Acta. 2003. V. 486(2).
P. 199-207.56.Khalil S. Ion-selective electrode for lanthanum determination in standardsamples // Anal. Lett. – 2003. V. 36(7). P.. 1335-134957.Ganjali M.R., Norouzi P., Shamsolahrari L., Ahmadi A. PPb levelmonitoring of lanthanium by a novel PCV-membrane sensor based on 4-methyl-2hydrazinobenzothiazole // Sen. and Actuat. B. 2006.
V.114(2). P. 713-719.58.Ganjali M.R., Daftari A., Rezapour M., Puorsaberi T., Haghgoo S.Gliclazide as novel carrier in construction of PVC-based La(III)-selective membranesensor // Talanta. 2003. V. 59(3). P. 613-619.59.Ganjali M.R., Kiani-Anbouhi R., Shamsipur M., Poursaberi T., Salavati-Niasari M., Talebpour Z., Emami M. Novel potentiometric PVC-membrane and coatedgraphite sensors for lanthanum(III) // Electroanal. 2014. V. 16(12). P. 1002-1008.60.Ganjali M.R., Qomi M., Daftari A., Norouzi P., Salavati-Niasari M.,Rabbani M.
Novel lanthanum(III) membrane sensor based on a new N-S Schiff's base //Sen. and Actuat. B. 2004. V. 98(1). P. 92-96.61.Shamsipur M., Ershad S., Samadi N., Esmaeilbeig A.R., Kia R.,Abdolmaleki A. Polymeric membrane lanthanum(III)-selective electrode based on N,N′adipylbis(5-phenylazo salicylaldehyde hydrazone) // Electroanal. 2005. V. 17(20).
P.1828-1834.11462.Ganjali M.R., Matloobi P., Ghorbani M., Norouzi P., Salavati-Niasari M.La(III) selective membrane sensor based on a new N-N Schiff's base // Bulletin of theKorean Chem. Soc. 2005. V. 26(1). P. 38-42.63.Akhond M., Najafi M.B., Tashkhourian J. Lanthanum-selective membraneelectrode based on 2,2′-dithiodipyridine // Anal.
Chim. Acta. 2005. V. 531(2). P. 179184.64.Ganjali M.R., Akbar V., Ghorbani M., Norouzi P., Ahmadi A. Fluoridedetermination in some mouth wash preparations by a novel La(III) graphite coatedmembrane sensor based on amitraz // Anal. Chim. Acta. 2005. V. 531(2). P. 185-191.65.Ganjali M.R., Gholivand M.B., Rahimi-Nasrabadi M., Maddah B.,Salavati-Niasari M., Ahmadi F. Synthesis of a new octadentates Schiff's base and itsaP.lication in construction of a highly selective and sensitive lanthanum (III) membranesensor // Sens. Lett. 2006.
V. 4 (4). P. 356-363.66.Ganjali M.R., Norouzi P., Yousefian N., Faridbod F., Adib M. Sub-micromolar monitoring of La3+ by a novel lanthanum PVC-based membrane sensor based on3-hydroxy-N′-(pyridin-2-ylmethylene)-2- naphthohydrazide // Bulletin of the KoreanChem. Soc. 2006. V. 27(10). P. 1581-1586.67.Ganjali M.R., Norouzi P., Alizadeh T., Adib M. Application of 8-amino-N-(2-hydroxybenzylidene)naphthyl amine as a neutral ionophore in the construction of alanthanum ion-selective sensor // Anal.
Chim. Acta. 2006. V. 576(2). P. 275-282.68.Zamani H.A., Ganjali M.R., Norouzi P., Adib M., Aceedy M. Synthesis ofN′-(1-pyridin-2-ylmethylene)-2-furohydrazide and its aP.lication in construction of ahighly selective PVC-based membrane sensor for La(III) ions // Anal. Sci. 2006.
V.22(7). P. 943-948.69.. Ganjali M.R., Norouzi P., Alizadeh T., Tadjarodi A., Hanifehpour Y.Construction of a highly selective and sensitive La(III) sensor based on N-(2-pyridyl)N′-(4-methoxyphenyl)-thiourea for nano level monitoring of La(III) ions // Electroanal.2006. V. 18(11). P. 1091-1096.11570.. Mittal S.K., Sharma H.K., Kumar S.K.
Synthesis, characterization andanalytical application of zirconium (IV) antimonoarsenate as a potentiometric sensor //React. Funct. Polym. 2006. V. 66(10). P. 1174-1181.71.Shamsipur M., Yousefi M., Hosseini M., Ganjali M.R. PVC-based 1,3,5-trithiane coated graphite electrode for determination of cerium(III) ions // Anal.
Lett.2001. V. 34(13). P. 2249-2261.72.Gaber A.A.A. A novel PVC membrane sensor for selective determinationof cerium(III) ions //Anal. Lett. 2003. V. 36(12). P. 2585-2596.73.Karami H., Mousavi M.F., Shamsipur M., Yavari I., Alizadeh A.A. A newion-selective electrode for potentiometric determination of Ce(III) // Anal. Lett. 2003.V. 36(6).
P. 1065-1078.74.Akhond M., Najafi M.B., Tashkhourian, J. A new cerium (III)-selectivemembrane electrode based on 2-aminobenzothiazole // Sen. and Actuat. B. 2004. V.99(2-3). P. 410-415.75.Gupta V.K., Singh A.K., Gupta B. A cerium(III) selective polyvinylchloride membrane sensor based on a Schiff base complex of N,N′-bis[2(salicylideneamino)ethyl]ethane-1,2-diamine // Anal. Chim. Acta. 2006. V. 575(2). P.198-204.76.Pouretedal H.R., Semnani A., Keshavarz M.H. Cerium(III) ion-selectiveelectrodes based on 1,4,7-trithiacyclononane // Turkish J. of Chem. 2006. V. 30(6).
P.711-721.77.Saleh M.B., Abdel Gaber A.A., Khalaf M.M.R., Tawfeek A.M. A new ion-selective electrode for potentiometric determination of Ce(III) ions // Sen. Actuat. B.2006. V. 119(1). P. 275-281.78.Zamani H.A., Ganjali M.R., Adib M. Construction of a highly selectivePVC-based membrane sensor for Ce(III) ions // Sen. Actuat. B.
2007. V. 120(7). P. 545550.79.Zamani H. A., Masrournia M., Sahebnasagh S., Ganjali M. R. Fabricationof a praseodymium(III) PVC-membrane sensor based on N′1,N′2-bis(2-oxo-1,2diphenylethylidene) ethanedihydrazide // Anal. Lett. 2013. V. 42(3). P. 555-57011680.Ganjali M.R., Mirnaghi F.S., Norouzi P., Adib M. Novel Pr(III)-selectivemembrane sensor based on a new hydrazide derivative // Sen. Actuat. B. 2006. V.115(1).
P. 374-378.81.Gupta A.P., Agrawal H., Shukla S.K., Bharduwaj V.R. Studies on PVCbased chelating inorganic ion exchange resin membrane sensor for neodymium(III) ion// Indian J. Chem. Technol. 2004. V. 11(4). P. 500-503.82.Shamsipur M., Hosseini M., Alizadeh K., Mousavi M.F., Garau A.,Lippolis V., Yari A. PVC membrane potentiometric sensor based on 5-pyridino-2,8dithia[9](2,9)- 1, 10-phenanthrolinephane for selective determination of neodymium(III)// Anal.
Chem. 2005. V. 77(1). P. 276-283.83.Norouzi P., Ganjali M.R., Ahmadalinezhad A., Adib M. Novelneodymium(III) membrane sensor based on N-(2-furylmethylene)pyridine- 2,6-diamine// Journal of the Brazilian Chem. Soc. 2006. V. 17(7). P. 1309-1315.84.Ganjali M.R., Ahmadalinezhad A., Norouzi P., Adib M. Nd(III)-PVCmembrane sensor based on 2-{[(6-aminopyridin-2-yl)imino]methyl} -phenol // J.
Appl.Electrochem. 2006. V. 36(8). P. 931-936.85.Behmadi H., Zamani H.A., Ganjali M.R., Norouzi P. Determination ofneodymium(III) ions in soil and sediment samples by a novel neodymium(III) sensorbased on benzyl bisthiosemicarbazone // Electrochim. Acta. 2007. V. 53(4). P. 18701876.86.Bandi K.R., Singh A.K., Upadhyay A. Biologically active Schiff bases aspotentiometric sensor for the selective determination of Nd3+ ion // Electrochim. Acta.2013. V. 105. P. 654-664.87.Mittal S.K., Sharma H.K., Kumar A.S.K.Samarium (III) selectivemembrane sensor based on tin (IV) boratophosphate // Sensors.
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