1. Investigation on the Formation of Rare-Earth Metal Phenoxides via Metathesis.
- Author
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Wang, Jintao, Pei, Qijun, Yu, Yang, Cui, Jirong, Wang, Shangshang, Tan, Khai Chen, Guo, Jiaquan, He, Teng, and Chen, Ping
- Subjects
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PHENOXIDES , *METATHESIS reactions , *METATHESIS (Linguistics) , *THERMODYNAMICS , *LEWIS acidity , *RARE earth oxides - Abstract
A number of alkali organometallic complexes with suitable thermodynamic properties and high capacity for hydrogen storage have been synthesized; however, few transition metal–organic complexes have been reported for hydrogen storage. Moreover, the synthetic processes of these transition metal–organic complexes via metathesis were not well characterized previously, leading to a lack of understanding of the metathesis reaction. In the present study, yttrium phenoxide and lanthanum phenoxide were synthesized via metathesis of sodium phenoxide with YCl3 and LaCl3, respectively. Quasi in situ NMR, UV-vis, and theoretical calculations were employed to characterize the synthetic processes and the final products. It is revealed that the electron densities of phenoxides in rare-earth phenoxides are lower than in sodium phenoxide due to the stronger Lewis acidity of Y3+ and La3+. The synthetic process may follow a pathway of stepwise formation of dichloride, monochloride, and chloride-free species. Significant decreases in K-band and R-band absorption were observed in UV-vis, which may be due to the weakened conjugation effect between O and the aromatic ring after rare-earth metal substitution. Two molecular structures, i.e., planar and nonplanar, are identified by theoretical calculations for each rare-earth phenoxide. Since these two structures have very close single-point energies, they may coexist in the materials. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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