A. L. Buzlukov scite author profile

LiTi 2 (PO 4 ) 3 (LTP) and Li 1.3 Al 0.3 Ti 1.7 (PO 4 ) 3 (LATP) (S. g. R-3c) have been prepared using conventional ceramic and mechanical activation (MA) methods. It has been shown that preliminary mechanical activation of initial mixtures leads to different nature and amount of dielectric admixtures in the final product after heat treatment at 800-1000°C as compared with ceramic method. Transport properties of as prepared materials have been studied by lithium ionic conductivity at d.c. and a.c. (complex impedance method), and 7 Li NMR spin-lattice relaxation rate T 1 -1 measurements. Lithium ionic conductivity of mechanochemically prepared LTP and LATP was characterized by significant reduction of grain boundary resistance, especially for LTP, while the bulk conductivity and Li ion diffusion does not noticeably change. The activation energy of bulk conductivity and Li ion diffusion, i.e. short-range motion, appeared to be almost the same for all samples and was equal to~0.20 eV. On contrary, the activation energy of d.c.-conductivity, i.e. long-range Li ion motion decreases from 0.6 eV for ceramic samples to~0.4 eV for samples prepared via mechanochemical route. It was proposed that MA leads to formation of nano-particulate high-conductive grain boundaries both in LTP and LATP.

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Localization of vacancies and mobility of lithium ions in Li2ZrO3 as obtained by 6,7Li NMR

Baklanova

Arapova

Buzlukov

et al. 2013

Journal of Solid State Chemistry

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Nuclear magnetic resonance study of hydrogen motion in C15-type TaV2Hx (x≤ 0.18)

Buzlukov

Skripov

2004

Journal of Alloys and Compounds

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Kinetics of interaction of Mg-based mechanically activated alloys with hydrogen

Mushnikov

Ермаков

Уймин

et al. 2006

Phys. Metals Metallogr.

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A. L. Buzlukov

Nuclear magnetic resonance study of Li and H diffusion in the high-temperature solid phase of LiBH4

Lithium conductivity and lithium diffusion in NASICON-type Li1+xTi2–xAlx(PO4)3 (x= 0; 0.3) prepared by mechanical activation

Localization of vacancies and mobility of lithium ions in Li2ZrO3 as obtained by 6,7Li NMR

Nuclear magnetic resonance study of hydrogen motion in C15-type TaV2Hx (x≤ 0.18)

Kinetics of interaction of Mg-based mechanically activated alloys with hydrogen

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