Yu Tachibana scite author profile

Yu Tachibana

5Publications

108Citation Statements Received

110Citation Statements Given

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102

Affiliations

Nagaoka University of Technology, Nagaoka University, Tokyo Institute of Technology

Publications

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Crown ether-type organic composite adsorbents embedded in high-porous silica beads for simultaneous recovery of lithium and uranium in seawater

Tachibana

Tanaka

Nogami

2019

J Radioanal Nucl Chem

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The syntheses of crown ether-type organic composite adsorbents embedded in high-porous silica beads for simultaneous recovery of lithium and uranium in seawater have been achieved and the adsorption behavior of lithium and uranium on the composite adsorbents has been examined in several types of original seawater in the wide temperature and pH ranges. As a result, the composite adsorbents composed of benzo-15crown-5 (BC15) and benzo-18-crown-6 (BC18) showed the top-class maximum adsorption capacities for lithium [6.5 mg / g (BC15), 11 mg / g (BC18)] and uranium [12 mg / g (BC15), 4.2 mg / g (BC18)].

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Lithium isotope separation using displacement chromatography by cation exchange resin with high degree of cross-linkage

Putra

Tachibana

Tanaka

et al. 2018

Fusion Engineering and Design

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Selective Lithium Recovery from Seawater Using Crown Ether Resins

Tachibana

Suzuki

Nogami

et al. 2018

J.I.E.

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Seven kinds of crown ether resins embedded in high-porous silica beads, benzo-12-crown-4 (BC12), dibenzo-14-crown-4 (DBC14), benzo-15-crown-5 (BC15), benzo-18-crown-6 (BC18), dibenzo-18-crown-6 (DBC18), dibenzo-21-crown-7 (DBC21), and dibenzo-22-crown-6 (DBC22) resins, were synthesized successfully and the adsorption behavior of Li ion on these crown ether resins have been studied in seawater at room temperature. As a result, it was found that the ascending order of the distribution coefficients (K d) values of Li ion using the seven crown ether resins are DBC14 < BC12 DBC21 DBC18 < DBC22 < BC18 ≤ BC15 and the BC15 resin has comparatively higher adsorption ability for Li ion. Hence, the adsorption behavior of Li ion using the BC15 resin has been examined in detail. It can be seen that the K d values of Li ion with the BC15 resin increase sharply with increasing the pH 1.5 to 2.7 in seawater due to the dependence of H + for the adsorption reaction. The K d values of Li ion increased sharply with increasing the concentration factor (CF) of seawater in order of 0.10, 0.20, 0.33, 0.50, 1.0 while the K d value of CF = 1.5 of seawater decreased certainly. The decrease is attributable to the adsorption reactions between the BC15 resin and the main cationic ions. The tendency indicates that the BC15 resin has wonderful selective adsorption ability for Li ion in the wide concentration range of seawater. In addition, we have examined the thermodynamics (Temp. = 278-333 K) of Li ion on the BC15 resin in seawater by using Van't Hoff equation. The results also imply that the equilibrium adsorption process between the BC15 resin and Li ion is found to be endothermic and the spontaneous reaction mechanism in nature. From these results, we have proposed that the BC15 resin is available for selective recovery of Li ion from various seawater in the wide temperature range.

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Lithium Isotope Separation using Cation Exchange Resin with High Cross-Linkage

et al. 2017

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Adsorption behavior of uranium ion using novel phenol-type resins in contaminated water containing seawater

Yamazaki

Tachibana

Kaneshiki

et al. 2015

Progress in Nuclear Energy

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Yu Tachibana

Crown ether-type organic composite adsorbents embedded in high-porous silica beads for simultaneous recovery of lithium and uranium in seawater

Lithium isotope separation using displacement chromatography by cation exchange resin with high degree of cross-linkage

Selective Lithium Recovery from Seawater Using Crown Ether Resins

Lithium Isotope Separation using Cation Exchange Resin with High Cross-Linkage

Adsorption behavior of uranium ion using novel phenol-type resins in contaminated water containing seawater

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