Rational synthesis and lithium storage properties of hierarchical nanoporous TiO2(B) assemblies with tailored crystallites and architectures

A novel synthetic approach based on the reaction between tetrabutyl titanate and normal fatty acids is proposed to fabricate hierarchical nanoporous TiO2(B) assemblies with tailored crystallites and architectures, which not only sheds new light on TiO2(B) crystallization, but also provides an effect...

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Bibliographic Details
Published in:Journal of colloid and interface science 2021-10, Vol.600, p.530-536
Main Authors: Ye, Xiaozhou, Hu, Huiru, Xiong, Huan, Wang, Yun, Ye, Jianfeng
Format: Article
Language:English
Subjects:
Hierarchical assemblies
Li-ion batteries
Solvothermal reaction
Tailored crystallites and architectures
TiO2(B)
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Summary:A novel synthetic approach based on the reaction between tetrabutyl titanate and normal fatty acids is proposed to fabricate hierarchical nanoporous TiO2(B) assemblies with tailored crystallites and architectures, which not only sheds new light on TiO2(B) crystallization, but also provides an effective solution for rational design of complex TiO2(B) micro-/nanoarchitectures for desired applications. [Display omitted] In comparison to the common anatase, rutile and brookite phases, the bronze phase TiO2 (TiO2(B)) is rarely prepared, and obtaining unique TiO2(B) structures, especially those with complex configurations remains a great challenge. This work presents a completely new synthetic approach for fabricating hierarchical nanoporous TiO2(B) assemblies with tailored crystallites and architectures via the reaction between tetrabutyl titanate and normal fatty acids. Three different kinds of normal fatty acids, i.e., pentanoic acid, hexanoic acid, and nonanoic acid were utilized as the sole solvent. After a simple solvothermal treatment, nanoporous TiO2(B) microspheres constructed by [001]-elongated ultrathin nanorods, randomly aggregated ultrafine nanocrystals, and crystallographically oriented nanocrystals were successfully produced separately. Further investigation revealed that the morphology of the hierarchical assemblies could be modified by using foreign substrates to adjust the growth dynamics of TiO2(B) crystals. As a good illustration, by introducing graphene nanosheets into the tetrabutyl titanate-pentanoic acid system, nanosized [001]-elongated-ultrathin-nanorod-constructed nanoporous TiO2(B) assemblies were obtained, which exhibited superior performance as an anode in Li-ion batteries. This work can not only shed new light on TiO2(B) crystallization, but also provide an effective solution for the rational design of complex TiO2(B) micro-/nanoarchitectures for desired applications.
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2021.05.053