Non-destructive compositional analysis of sol–gel synthesized lithium titanate (Li2TiO3) by particle induced gamma-ray emission and instrumental neutron activation analysis

Lithium titanate, one of the important tritium breeding materials in D–T based fusion reactor under ITER programme, was synthesized through sol–gel route. For chemical quality control of finished product, it was necessary to quantify the lithium and titanium contents. As this ceramic sample is diffi...

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Veröffentlicht in:	Journal of radioanalytical and nuclear chemistry 2013-12, Vol.298 (3), p.1597-1603
Hauptverfasser:	Chhillar, S., Acharya, R., Vittal Rao, T. V., Bamankar, Y. R., Mukerjee, S. K., Pujari, P. K., Aggarwal, S. K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Bisphenol-A Chemistry Chemistry and Materials Science Diagnostic Radiology Emission analysis Gamma rays Hadrons Heavy Ions Inorganic Chemistry Lithium Mathematical analysis Neutron activation analysis Nondestructive testing Nuclear Chemistry Nuclear Physics Physical Chemistry Quality control Sol gel process Titanates Titanium
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container_title	Journal of radioanalytical and nuclear chemistry
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creator	Chhillar, S. Acharya, R. Vittal Rao, T. V. Bamankar, Y. R. Mukerjee, S. K. Pujari, P. K. Aggarwal, S. K.
description	Lithium titanate, one of the important tritium breeding materials in D–T based fusion reactor under ITER programme, was synthesized through sol–gel route. For chemical quality control of finished product, it was necessary to quantify the lithium and titanium contents. As this ceramic sample is difficult to dissolve, non-destructive analytical methods are preferred for compositional analysis. In the present work, two non-destructive nuclear analytical methods namely particle induced gamma-ray emission (PIGE) using proton beam and instrumental neutron activation analysis (INAA) using reactor neutrons were standardized for the determination of lithium and titanium concentrations, respectively and applied to eleven samples of lithium titanate. To the best of our knowledge, Li quantification in lithium titanate sample is being reported for the first time using PIGE. For quantifications of Li and Ti, 478 keV prompt gamma-ray from 7 Li (p, p′γ) 7 Li and 320 keV gamma-ray from 50 Ti (n,γ) 51 Ti were measured, respectively, by high resolution gamma-ray spectrometry. The PIGE and INAA methods were validated using several synthetic samples containing lithium and titanium, respectively. Concentrations of lithium and titanium and Li/Ti mole ratios were evaluated and compared with the stoichiometric concentration of Li 2 TiO 3 .
doi_str_mv	10.1007/s10967-013-2609-5
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In the present work, two non-destructive nuclear analytical methods namely particle induced gamma-ray emission (PIGE) using proton beam and instrumental neutron activation analysis (INAA) using reactor neutrons were standardized for the determination of lithium and titanium concentrations, respectively and applied to eleven samples of lithium titanate. To the best of our knowledge, Li quantification in lithium titanate sample is being reported for the first time using PIGE. For quantifications of Li and Ti, 478 keV prompt gamma-ray from 7 Li (p, p′γ) 7 Li and 320 keV gamma-ray from 50 Ti (n,γ) 51 Ti were measured, respectively, by high resolution gamma-ray spectrometry. The PIGE and INAA methods were validated using several synthetic samples containing lithium and titanium, respectively. 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subjects	Bisphenol-A Chemistry Chemistry and Materials Science Diagnostic Radiology Emission analysis Gamma rays Hadrons Heavy Ions Inorganic Chemistry Lithium Mathematical analysis Neutron activation analysis Nondestructive testing Nuclear Chemistry Nuclear Physics Physical Chemistry Quality control Sol gel process Titanates Titanium
title	Non-destructive compositional analysis of sol–gel synthesized lithium titanate (Li2TiO3) by particle induced gamma-ray emission and instrumental neutron activation analysis
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