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In situ anchor of Na2Ti3O7 in nitrogen-rich carbon hollow red blood cell-like structure as a 0D-3D hierarchical electrode material for efficient electrochemical desalination.
Zhang, Yingying; Feng, Xiaogeng; Wang, Yuejiao; Shan, Weijun; Lou, Zhenning; Xiong, Ying.
Afiliación
  • Zhang Y; College of Chemistry, Key Laboratory of Rare-scattered Elements of Liaoning Province, Liaoning University Shenyang 110036 P. R. China xiongying_1977@hotmail.com.
  • Feng X; College of Chemistry, Key Laboratory of Rare-scattered Elements of Liaoning Province, Liaoning University Shenyang 110036 P. R. China xiongying_1977@hotmail.com.
  • Wang Y; College of Chemistry, Key Laboratory of Rare-scattered Elements of Liaoning Province, Liaoning University Shenyang 110036 P. R. China xiongying_1977@hotmail.com.
  • Shan W; College of Chemistry, Key Laboratory of Rare-scattered Elements of Liaoning Province, Liaoning University Shenyang 110036 P. R. China xiongying_1977@hotmail.com.
  • Lou Z; College of Chemistry, Key Laboratory of Rare-scattered Elements of Liaoning Province, Liaoning University Shenyang 110036 P. R. China xiongying_1977@hotmail.com.
  • Xiong Y; College of Chemistry, Key Laboratory of Rare-scattered Elements of Liaoning Province, Liaoning University Shenyang 110036 P. R. China xiongying_1977@hotmail.com.
Chem Sci ; 13(16): 4545-4554, 2022 Apr 20.
Article en En | MEDLINE | ID: mdl-35656142
Reasonable design of the structure and complementary compounding of electrode materials is helpful to enhance capacitive deionization (CDI) performance. Herein, a novel 0D-3D hierarchical electrode material containing Na2Ti3O7 nanoparticles anchored at hollow red blood cell (HRBC)-like nitrogen-rich carbon (HRBC-NTO/N-C-60) was prepared via selective protection, pyrolysis, and alkalization. Specifically, a HRBC-like NH2-MIL-125-based material (HRBC-MOF-60) was first constructed by a selective protection approach of tannic acid (TN), which addresses the shortcomings of using sacrificial templates or corrosive agents. Afterwards, HRBC-NTO/N-C-60 was obtained in situ by annealing and alkalization of HRBC-MOF-60. The nitrogen-rich carbon with a HRBC-like structure has the ability to rapidly transport electrons, and its porous structure enables remarkable charge transfer. Benefiting from the grafted 3D N-doped porous carbon with a HRBC-like structure, well-dispersed 0D Na2Ti3O7 nanoparticles, and satisfactory bonding effects, HRBC-NTO/N-C-60 exhibited high specific capacitance and fast ionic and electronic diffusion kinetics. Moreover, HRBC-NTO/N-C-60 was well-suited for desalination by functioning as a cathode material for capacitive deionization (CDI), and delivering a high desalination capacity of 66.8 mg g-1 in 200 mg L-1 NaCl solution at 1.4 V. This work introduces an excellent high-performance candidate for electrochemical deionization as well as affording afflatus for accurately inventing OD-3D hierarchical materials with hollow structures.

Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Chem Sci Año: 2022 Tipo del documento: Article Pais de publicación: Reino Unido

Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Chem Sci Año: 2022 Tipo del documento: Article Pais de publicación: Reino Unido