Controlled synthesis of vertically aligned hematite on conducting substrate for photoelectrochemical cells: Nanorods versus nanotubes

Aiming Mao; Kahee Shin; Jung Kyu Kim; Dong Hwan Wang; Gui Young Han; Jong Hyeok Park

doi:10.1021/am200407t

Controlled synthesis of vertically aligned hematite on conducting substrate for photoelectrochemical cells: Nanorods versus nanotubes

Aiming Mao, Kahee Shin, Jung Kyu Kim, Dong Hwan Wang, Gui Young Han, Jong Hyeok Park

Department of Chemical and Biomolecular Engineering

Research output: Contribution to journal › Article › peer-review

58 Citations (Scopus)

Abstract

This paper describes two different processes to synthesize vertically aligned hematite nanorod and nanotube arrays, respectively, on a conductive substrate by the electrochemical deposition method with the help of an anodized aluminum oxide nanotemplate. The two types of nanostructured hematite were used as the photoanode for photoelectrochemical cells. The hematite nanotubes exhibited much higher photoelectrochemical activity than the hematite nanorods, including an improved photocurrent density, more negative onset potential, better photon harvesting, and better charge carrier transfer ability. The observed behavior may offer new information to enhance the photocatalytic ability of hematite, which is considered to be one of the best photoanode materials in the research field of photoelectrochemical cells.

Original language	English
Pages (from-to)	1852-1858
Number of pages	7
Journal	ACS Applied Materials and Interfaces
Volume	3
Issue number	6
DOIs	https://doi.org/10.1021/am200407t
Publication status	Published - 2011 Jun 22

All Science Journal Classification (ASJC) codes

Materials Science(all)

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10.1021/am200407t

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title = "Controlled synthesis of vertically aligned hematite on conducting substrate for photoelectrochemical cells: Nanorods versus nanotubes",

abstract = "This paper describes two different processes to synthesize vertically aligned hematite nanorod and nanotube arrays, respectively, on a conductive substrate by the electrochemical deposition method with the help of an anodized aluminum oxide nanotemplate. The two types of nanostructured hematite were used as the photoanode for photoelectrochemical cells. The hematite nanotubes exhibited much higher photoelectrochemical activity than the hematite nanorods, including an improved photocurrent density, more negative onset potential, better photon harvesting, and better charge carrier transfer ability. The observed behavior may offer new information to enhance the photocatalytic ability of hematite, which is considered to be one of the best photoanode materials in the research field of photoelectrochemical cells.",

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AU - Mao, Aiming

AU - Shin, Kahee

AU - Kim, Jung Kyu

AU - Wang, Dong Hwan

AU - Han, Gui Young

AU - Park, Jong Hyeok

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Controlled synthesis of vertically aligned hematite on conducting substrate for photoelectrochemical cells: Nanorods versus nanotubes

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