Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission
Neodymium-doped rare-earth oxycarbonates, Ln2O2CO3: x mol% Nd3+ (Ln = La, Gd, and Y, 0 ≤ x ≤ 5), were synthesized by a simple flux method using a 0.476Li2CO3–0.270Na2CO3–0.254K2CO3 eutectic mixture. The suitability of these oxycarbonates as stable, nontoxic bioimaging phosphors that exhibit near-inf...
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Taylor & Francis Group
2019-10-01
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| Series: | Journal of Asian Ceramic Societies |
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| Online Access: | http://dx.doi.org/10.1080/21870764.2019.1673137 |
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doaj-7c3c61f09c484e688d3411f1e205b3062021-05-02T22:26:00ZengTaylor & Francis GroupJournal of Asian Ceramic Societies2187-07642019-10-017450250810.1080/21870764.2019.16731371673137Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emissionMizuki Watanabe0Yasuhiro Sejima1Ryohei Oka2Shintaro Ida3Toshiyuki Masui4Chuo UniversityTottori UniversityTottori UniversityKumamoto UniversityTottori UniversityNeodymium-doped rare-earth oxycarbonates, Ln2O2CO3: x mol% Nd3+ (Ln = La, Gd, and Y, 0 ≤ x ≤ 5), were synthesized by a simple flux method using a 0.476Li2CO3–0.270Na2CO3–0.254K2CO3 eutectic mixture. The suitability of these oxycarbonates as stable, nontoxic bioimaging phosphors that exhibit near-infrared (NIR) emission under NIR excitation was investigated. Gd2O2CO3: x mol% Nd3+ and Y2O2CO3: x mol% Nd3+ were obtained in single-phase form with a hexagonal type-II structure. The particle sizes of the Gd2O2CO3: x mol% Nd3+ and Y2O2CO3: x mol% Nd3+ were on a submicron scale suitable for bioimaging, but that of La2O2CO3: x mol% Nd3+ was outside the suitable range for bioimaging. Gd2O2CO3: x mol% Nd3+ and Y2O2CO3: x mol% Nd3+ showed characteristic emissions corresponding to the f–f transitions of Nd3+. The strongest emission peak was observed at around 1064 nm under excitation at 823 nm in the samples containing 2 mol% of Nd3+. The emission intensity of Gd2O2CO3: 2 mol% Nd3+ was 1.25 times higher than that of Y2O2CO3: 2 mol% Nd3+. The emission intensity of both phosphors was also significantly higher than that of the indocyanine green in practical use as a bio-imaging reagent.http://dx.doi.org/10.1080/21870764.2019.1673137nir emissionneodymium ionrare-earth oxycarbonatehexagonal structureflux method |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Mizuki Watanabe Yasuhiro Sejima Ryohei Oka Shintaro Ida Toshiyuki Masui |
| spellingShingle |
Mizuki Watanabe Yasuhiro Sejima Ryohei Oka Shintaro Ida Toshiyuki Masui Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission Journal of Asian Ceramic Societies nir emission neodymium ion rare-earth oxycarbonate hexagonal structure flux method |
| author_facet |
Mizuki Watanabe Yasuhiro Sejima Ryohei Oka Shintaro Ida Toshiyuki Masui |
| author_sort |
Mizuki Watanabe |
| title |
Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission |
| title_short |
Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission |
| title_full |
Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission |
| title_fullStr |
Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission |
| title_full_unstemmed |
Submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission |
| title_sort |
submicron-sized phosphors based on hexagonal rare earth oxycarbonate for near-infrared excitation and emission |
| publisher |
Taylor & Francis Group |
| series |
Journal of Asian Ceramic Societies |
| issn |
2187-0764 |
| publishDate |
2019-10-01 |
| description |
Neodymium-doped rare-earth oxycarbonates, Ln2O2CO3: x mol% Nd3+ (Ln = La, Gd, and Y, 0 ≤ x ≤ 5), were synthesized by a simple flux method using a 0.476Li2CO3–0.270Na2CO3–0.254K2CO3 eutectic mixture. The suitability of these oxycarbonates as stable, nontoxic bioimaging phosphors that exhibit near-infrared (NIR) emission under NIR excitation was investigated. Gd2O2CO3: x mol% Nd3+ and Y2O2CO3: x mol% Nd3+ were obtained in single-phase form with a hexagonal type-II structure. The particle sizes of the Gd2O2CO3: x mol% Nd3+ and Y2O2CO3: x mol% Nd3+ were on a submicron scale suitable for bioimaging, but that of La2O2CO3: x mol% Nd3+ was outside the suitable range for bioimaging. Gd2O2CO3: x mol% Nd3+ and Y2O2CO3: x mol% Nd3+ showed characteristic emissions corresponding to the f–f transitions of Nd3+. The strongest emission peak was observed at around 1064 nm under excitation at 823 nm in the samples containing 2 mol% of Nd3+. The emission intensity of Gd2O2CO3: 2 mol% Nd3+ was 1.25 times higher than that of Y2O2CO3: 2 mol% Nd3+. The emission intensity of both phosphors was also significantly higher than that of the indocyanine green in practical use as a bio-imaging reagent. |
| topic |
nir emission neodymium ion rare-earth oxycarbonate hexagonal structure flux method |
| url |
http://dx.doi.org/10.1080/21870764.2019.1673137 |
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| _version_ |
1721486893688815616 |