Solar Water Splitting: Progress Using Hematite (α‐Fe<sub>2</sub>O<sub>3</sub>) Photoelectrodes

Sivula, Kevin; Formal, Florian Le; Grätzel, Michaël

doi:10.1002/cssc.201000416

Cited by 2,472 publications

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“…Both hematite and maghemite have technologically interesting properties: hematite is used as catalyst for water oxidation 19,20 or as paint pigment, whereas maghemite is used as a contrast media in magnetic resonance or as magnetic recording media 21 . Despite many similarities, the two materials also display significant differences.…”

Section: Resultsmentioning

confidence: 99%

Formation of nitrogen-doped graphene nanoscrolls by adsorption of magnetic γ-Fe2O3 nanoparticles

et al. 2013

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Graphene nanoscrolls are Archimedean-type spirals formed by rolling single-layer graphene sheets. Their unique structure makes them conceptually interesting and understanding their formation gives important information on the manipulation and characteristics of various carbon nanostructures. Here we report a 100% efficient process to transform nitrogen-doped reduced graphene oxide sheets into homogeneous nanoscrolls by decoration with magnetic g-Fe 2 O 3 nanoparticles. Through a large number of control experiments, magnetic characterization of the decorated nanoparticles, and ab initio calculations, we conclude that the rolling is initiated by the strong adsorption of maghemite nanoparticles at nitrogen defects in the graphene lattice and their mutual magnetic interaction. The nanoscroll formation is fully reversible and upon removal of the maghemite nanoparticles, the nanoscrolls return to open sheets. Besides supplying information on the rolling mechanism of graphene nanoscrolls, our results also provide important information on the stabilization of iron oxide nanoparticles.

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Section: Resultsmentioning

confidence: 99%

Formation of nitrogen-doped graphene nanoscrolls by adsorption of magnetic γ-Fe2O3 nanoparticles

et al. 2013

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“…[10][11][12] TiO 2 has been the first material tested for water oxidation. 13,14 The TiO 2 absorption edge is 3.2 eV, allowing only 4% of the incident solar energy to be absorbed at best.…”

Section: Introductionmentioning

confidence: 99%

How Should Iron and Titanium be Combined in Oxides to Improve Photoelectrochemical Properties?

et al. 2016

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We discuss here for the first time how to combine iron and titanium metal ions to achieve a high photo-electrochemical activity for TiO 2 -based photo-anodes in water splitting devices. To do so, a wide range of photoelectrode materials with tailored Ti/Fe ratio and element vicinity were synthesized by using the versatility of aqueous sol-gel chemistry in combination with a microwave-assisted crystallization process. At low ferric concentrations, single phase TiO 2 anatase doped with various Fe amounts were prepared. Strikingly, at higher ferric concentrations, propose that the nature of the heterojunction impacts charge carrier recombination. The results presented herein not only answer whether iron and titanium should be combined in the same structure or into heterostructured systems, but also on the importance of the arrangement of ions in the structure to improve the performances of the photoanode.

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“…Hematite (␣-Fe 2 O 3 ) has been extensively investigated as a promising semiconductor due to its favourable band gap (E g = 2.2 eV), excellent chemical and physical stabilities, abundant natural reserves, and low cost [4][5][6]. However the reported efficiencies of hematite are relatively lower than theoretically predicted value of 12.4%, mainly because of the extremely short photogenerated charge carriers' lifetime and diffusion length, chemically inert oxygen evolution reaction, and low flat band potential [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Cobalt Phosphate Group Modified Hematite Nanorod Array as Photoanode for Efficient Solar Water Splitting

Zhang

et al. 2014

Electrochimica Acta

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Solar Water Splitting: Progress Using Hematite (α‐Fe₂O₃) Photoelectrodes

Cited by 2,472 publications

References 144 publications

Formation of nitrogen-doped graphene nanoscrolls by adsorption of magnetic γ-Fe2O3 nanoparticles

Formation of nitrogen-doped graphene nanoscrolls by adsorption of magnetic γ-Fe2O3 nanoparticles

How Should Iron and Titanium be Combined in Oxides to Improve Photoelectrochemical Properties?

Cobalt Phosphate Group Modified Hematite Nanorod Array as Photoanode for Efficient Solar Water Splitting

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Solar Water Splitting: Progress Using Hematite (α‐Fe2O3) Photoelectrodes

Cited by 2,472 publications

References 144 publications

Formation of nitrogen-doped graphene nanoscrolls by adsorption of magnetic γ-Fe2O3 nanoparticles

Formation of nitrogen-doped graphene nanoscrolls by adsorption of magnetic γ-Fe2O3 nanoparticles

How Should Iron and Titanium be Combined in Oxides to Improve Photoelectrochemical Properties?

Cobalt Phosphate Group Modified Hematite Nanorod Array as Photoanode for Efficient Solar Water Splitting

Contact Info

Product

Resources

About

Solar Water Splitting: Progress Using Hematite (α‐Fe₂O₃) Photoelectrodes