2016
DOI: 10.1039/c6ta04370d
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Seed-assisted growth of α-Fe2O3 nanorod arrays on reduced graphene oxide: a superior anode for high-performance Li-ion and Na-ion batteries

Abstract: The α-Fe 2 O 3 nanorods/reduced graphene oxide nanosheets composites (denoted as α-Fe 2 O 3 @r-GO NRAs) are fabricated by a facile and scalable seeds-assisted hydrothermal growth route, in which the α-Fe 2 O 3 nanorods are assembled onto the side surfaces of r-GO nanosheets. Such α-Fe 2 O 3 @r-GO hybrid nanostructures are tested as anodes for both Li-ion and Na-ion batteries (LIBs and SIBs), which exhibits excellent performance with high capacity and long-cycling stability. When used for LIBs, the hybrid α-Fe … Show more

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Cited by 112 publications
(57 citation statements)
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“…Therefore, the studies on the electrochemical performance of SIBs carried out later were based on the ether electrolytes. Figure 5b shows the first three cycles of the CV curve for the N-GF-300 electrode measured at a scan rate of 0.05 mVs −1 at a range of 0.005-3 V. According to previous reports, the insertion and extraction of sodium ions in Fe 2 O 3 is based on the following reaction [5,10,16,17]:…”
Section: Resultsmentioning
confidence: 88%
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“…Therefore, the studies on the electrochemical performance of SIBs carried out later were based on the ether electrolytes. Figure 5b shows the first three cycles of the CV curve for the N-GF-300 electrode measured at a scan rate of 0.05 mVs −1 at a range of 0.005-3 V. According to previous reports, the insertion and extraction of sodium ions in Fe 2 O 3 is based on the following reaction [5,10,16,17]:…”
Section: Resultsmentioning
confidence: 88%
“…In the first CV curve from Figure 5b, there are two cathode peaks appearing at 0.5 and 0.89 V, respectively, due to the formation of the SEI film and the produce of Na x Fe 2 O 3 from the insertion of sodium ions into the Fe 2 O 3 . In the second CV curve, the cathode peaks at 0.63 and 0.94 V are accompanied by anode peaks at 0.6 and 1.6 V, which correspond to the reversible redox reaction of Fe 3+ ↔Fe 2+ and Fe 2+ ↔Fe 0 [5,16]. Figure 5c provides a comparison of the CV curves of the three electrode materials of GF, GF-300 and N-GF-300 at a scan rate of 1 mV s −1 .…”
Section: Resultsmentioning
confidence: 99%
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“…[8,9] However,i ts low photoconversion efficiency owing to the high electron-hole recombination and sluggisho xygen-evolutionk inetics greatlyr estrict its practical application. [8,9] However,i ts low photoconversion efficiency owing to the high electron-hole recombination and sluggisho xygen-evolutionk inetics greatlyr estrict its practical application.…”
Section: Introductionmentioning
confidence: 99%
“…So far,h ematite (a-Fe 2 O 3 )h as been identified as an efficient and low-cost catalyst for solar water oxidation by virtue of its ideal energy bandgap ( % 2.1 eV), abundance,n ontoxicity,a nd excellent stability,a sd emonstrated in both theoretical ande xperimental investigations. [8,9] However,i ts low photoconversion efficiency owing to the high electron-hole recombination and sluggisho xygen-evolutionk inetics greatlyr estrict its practical application. [10] Effective methods to address these challenges include doping with foreign elements or constructing junction structures;i np articular,d oping with monovalent or divalent ions is thought to increase positivec hargec arriers and, thus, convert hematite to ap -type semiconductor.F or instance, Li et al [11] have integrated methods of doping andh eterojunction formation to fabricate aN iO/P-a-Fe 2 O 3 photoanode, which presentsahigh photocurrentd ensity of 2.08 mA cm À2 at 1.23 V vs. reversible hydrogen electrode (RHE).…”
Section: Introductionmentioning
confidence: 99%