Rudimental research progress of rare-earth silicate oxyapatites: their identification as a new compound until discovery of their oxygen ion conductivity

Kobayashi, Kiyoshi; Sakka, Yoshio

doi:10.2109/jcersj2.122.649

Cited by 29 publications

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“…As pointed out in our previous review, 5) the oxyapatite phase in many quasi-ternary systems were misidentified. 13) One reason for this misidentification was a lack of quasi-ternary phase diagrams that included rare-earth oxides and silica.…”

Section: )mentioning

confidence: 99%

“…4) Even though almost no reports concerning point defects related to the oxygen and the disorder of oxygen distribution in lanthanoid silicate oxyapatites were published before 1995. 5) Furthermore, the discovery of high oxygen-ion conductivity has opened new research areas for many researchers. As a result, the development direction of the research field related to lanthanoid silicate oxyapatites has drastically changed since 1995.…”

Section: Introductionmentioning

confidence: 99%

“…As explained in our previous review, 5) which summarized the progress regarding the research related to rare-earth silicate oxyapatites starting from its identification as a new compound (1959) until the discovery of its oxygen-ion conductivity (1993), the basic knowledge of the crystal structure and applications of rare-earth silicate oxyapatites gradually improved from a state of uncertainty caused by a discrepancies in understanding of underlying physical and chemical properties to a consistent and reliable state. However, the knowledge acquired before 1993 was partially cast into doubt in 1995 because of the discovery of a new property, specifically, oxygen-ion conductivity.…”

Section: Introductionmentioning

confidence: 99%

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Research progress in nondoped lanthanoid silicate oxyapatites as new oxygen-ion conductors

Kobayashi

Sakka

2014

J. Ceram. Soc. Japan

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The discovery of oxygen-ion conductivity and changes in the crystal-structure model of nondoped lanthanum silicate oxyapatites are reviewed from the researches which led to the discovery to current work. The oxygen-ion conductivity of lanthanoid silicate oxyapatites was discovered by Nakayama et al., during development of new oxide lithium-ion conductors. Although samples with compositions of LiRESiO 4 (RE = La, Nd, Sm, Gd, Dy) were initially reported to be single phases with the same crystal structure, the accurate crystal structure of LiRESiO 4 was not clarified until later. The crystal structure determined from X-ray diffraction patterns of LiLnSiO 4 was revised as oxyapatite by another group. The chemical composition of the crystal phases in LiRESiO 4 was also revised to RE 10 Si 6 O 25 and/or RE 9.33 Si 6 O 24 . The discovery of oxygen-ion conductivity in these materials was confirmed when researchers noted that samples of RE 10 Si 6 O 25 , specifically, the samples without lithium, are electrically conducting. Furthermore, very high oxygen-ion conductivity in the direction parallel to c-axis was discovered after single crystals of RE 9.33 (SiO 4 ) 6 O 2 (RE = Nd, Pr, and Sm) were successfully grown. The crystal structure and defect models were also altered after the discovery of oxygen-ion conductivity. Although numerous reports related to the electrical conductivity of La 9.33+x (SiO 4 ) 6 O 2+3x/2 ceramics have appeared in the literature, clear dependences of the total conductivity on the cation nonstoichiometry (x) as well as the sintering temperature are still unclear because of large discrepancies in the reported data. Furthermore, the composition region, where the lanthanum silicate oxyapatite single phase is formed, is also still unclear because of the inconsistencies in the reported results.

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Section: )mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Research progress in nondoped lanthanoid silicate oxyapatites as new oxygen-ion conductors

Kobayashi

Sakka

2014

J. Ceram. Soc. Japan

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“…According to the experimental and theoretically predicted phase diagrams of the system Nd2O3-SiO2, three compounds of above neodymium silicates, their mixtures with Nd2O3 and SiO2 are present [5][6][7][8]. These neodymium silicates are formed at ratio of Nd2O3:SiO2 as 1:1 (Nd2SiO5), 7:9 (Nd9.33Si6O26), 1:2 (Nd2Si2O7) and coexist with Nd2O3 and SiO2 when other ratios.…”

Section: Introductionmentioning

confidence: 98%

“…Among them, neodymium silicates occupy a significant place. There are silicates -Nd2SiO5, Nd2Si2O7, Nd9.33Si6O26 and their solid solutions with other elements instead of Nd and Si [1][2][3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Low-temperature formation of apatite structure of neodymium silicate in silica matrix

Oranska¹,

Gornikov²,

Brichka³

et al. 2017

Him. Fiz. Tehnol. Poverhni

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Pyrosilicate‐Type Scintillators and Crystal Growth Methods

2024

Inorganic Scintillator and Crystal Growth Methods

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Rudimental research progress of rare-earth silicate oxyapatites: their identification as a new compound until discovery of their oxygen ion conductivity

Cited by 29 publications

References 100 publications

Research progress in nondoped lanthanoid silicate oxyapatites as new oxygen-ion conductors

Research progress in nondoped lanthanoid silicate oxyapatites as new oxygen-ion conductors

Low-temperature formation of apatite structure of neodymium silicate in silica matrix

Pyrosilicate‐Type Scintillators and Crystal Growth Methods

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