A general method for ultrathin 1D oxide nanomaterials

Zhao, Yuxin; Sun, Bing; Zhang, Shucai; Wang, Lin; Gao, Xin; Liu, Quanzhen; Mu, Shanjun; Zhang, Miao; Hu, Shi; Huo, Ziyang

doi:10.1039/C7NR03659K

Author(s)

Zhao, Yuxin

Sun, Bing

Zhang, Shucai

Wang, Lin

Gao, Xin

Liu, Quanzhen

Mu, Shanjun

Zhang, Miao

Hu, Shi

Huo, Ziyang

Griffith University Author(s)

Huo, Ziyang

Year published

2017

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Abstract

By utilizing the interaction between inorganic species and organic surfactants, the ordered layered mesostructures were generated for the synthesis of the one-dimensional oxide nanomaterials. The oxide nanomaterial products which evolved from the above layered structures were demonstrated as ultrathin (less than 2 nm) one-dimensional structures with superior catalytic performance. The synthetic method based on layered structures can be extended to prepare other one-dimensional oxide nanomaterials with the same ultrathin structures.By utilizing the interaction between inorganic species and organic surfactants, the ordered layered mesostructures were generated for the synthesis of the one-dimensional oxide nanomaterials. The oxide nanomaterial products which evolved from the above layered structures were demonstrated as ultrathin (less than 2 nm) one-dimensional structures with superior catalytic performance. The synthetic method based on layered structures can be extended to prepare other one-dimensional oxide nanomaterials with the same ultrathin structures.
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Journal Title

Nanoscale

Volume

Issue

DOI

https://doi.org/10.1039/C7NR03659K

Subject

Physical sciences

Other physical sciences not elsewhere classified

Chemical sciences

Publication URI

http://hdl.handle.net/10072/355070

Collection

Journal articles