Accelerated room-temperature crystallization of ultrahigh-surface-area porous anatase titania by storing photogenerated electrons

Juan Su; Xiaoxin Zou; Binghan Li; Hui Chen; Xinhao Li; Qiuying Yu; Qixi Mi; Jie Sheng Chen

Journal ArticleOPEN ACCESS

Accelerated room-temperature crystallization of ultrahigh-surface-area porous anatase titania by storing photogenerated electrons

Su J
Zou X
Li B
et al.

Chemical Communications (2017) 53(10) 1619-1621

DOI: 10.1039/c6cc08892a

21Citations

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Abstract

Room-temperature crystallization, a mild and energy-efficient process, shows important application potentials for developing functional materials. We significantly accelerated the crystallization of amorphous TiO2 at room temperature by storing photogenerated electrons and the resulting porous anatase titania exhibits ultrahigh surface areas up to 736 m2 g−1.

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APA

Su, J., Zou, X., Li, B., Chen, H., Li, X., Yu, Q., … Chen, J. S. (2017). Accelerated room-temperature crystallization of ultrahigh-surface-area porous anatase titania by storing photogenerated electrons. Chemical Communications, 53(10), 1619–1621. https://doi.org/10.1039/c6cc08892a

Accelerated room-temperature crystallization of ultrahigh-surface-area porous anatase titania by storing photogenerated electrons

Abstract

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