Hematite Thin Films with Various Nanoscopic Morphologies Through Control of Self-Assembly Structures

Liu, Jingling; Kim, Yong‐Tae; Kwon, Young‐Uk

doi:10.1186/s11671-015-0936-x

Cited by 7 publications

(3 citation statements)

References 53 publications

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“…Meso-Fe 2 O 3 film was prepared according to a procedure published elsewhere. [19] A coating solution was prepared by dissolving 1 g Fe(NO 3 ) 3 • 9H 2 O in 5 mL anhydrous ethanol under stirring at 40°C for 5 h. Subsequently, 400 mg Pluronic triblock copolymer F127 (M w = 12600, PEO 106 PPO 70 PEO 106 , Sigma) was added to this solution, which was stirred for additional two hours. A piece of carbon cloth (2 cm × 3 cm) was cleaned with 3 M hydrochloric acid, deionized water, and ethanol previously.…”

Section: Experimental Section Preparation Of Materialsmentioning

confidence: 99%

Self‐assembly Mesoporous FeP Film with High Porosity for Efficient Hydrogen Evolution Reaction

et al. 2020

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Exploring efficient noble metal-free electrocatalysts is of significance for water electrolysis. In this work, we fabricated a high-efficiency self-supporting electrode with mesoporous FeP film coated on carbon cloth (meso-FeP film/CC) for the hydrogen evolution reaction (HER). Compared with nanoparticlestacked disordered porous structure, the ordered mesoporous iron phosphide film exhibits high porosity as high as 2.3 × 10 17 site per mg, as well as small pore size and uniform pore distribution, which enables the exposure of abundant active sites. Moreover, the self-supporting structure with enhanced conductivity further optimizes its electrocatalytic performance towards the HER. As a result, the meso-FeP film/CC displays a low overpotential (65 mV at current density of 10 mA cm À 2 ) and a small Tafel slope (44 mV dec À 1 ) in acid condition, which is competitive among most of noble-metal free electrocatalysts.

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Section: Experimental Section Preparation Of Materialsmentioning

confidence: 99%

Self‐assembly Mesoporous FeP Film with High Porosity for Efficient Hydrogen Evolution Reaction

et al. 2020

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“…While the mechanism of co-decocting thermodynamic process in the influence on the activity of TCM self-assembly is still unclear. Simultaneously, as the self-assemblies respond to external stimuli (such as solvent type, pH value or temperature), the stacking arrangement of assembly units would change, resulting in morphological transitions [ 26 – 30 ].…”

Section: Introductionmentioning

confidence: 99%

Thermodynamics driving phytochemical self-assembly morphological change and efficacy enhancement originated from single and co-decoction of traditional chinese medicine

et al. 2022

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Through the self-assembled strategy to improve the clinical efficacy of the existing drugs is the focus of current research. Herbal formula granule is a kind of modern dosage form of traditional Chinese medicine (TCM) which has sprung up in recent decades. However, whether it is equivalent to the TCM decoction that has been used for thousands of years has always been a controversial issue. In this paper, taking the herb pair of Coptidis Rhizoma—Scutellariae Radix and its main component berberine—baicalin as examples, the differences and mechanisms of self-assemblies originated from the co-decoction and physical mixture were studied, respectively. Moreover, the relationship between the morphology and antibacterial effects of self-assemblies was illuminated via multi-technology. Our study revealed that the physical mixture’s morphology of both the herb pair and the phytochemicals was nanofibers (NFs), while their co-decoction’s morphology was nanospheres (NPs). We also found that the antibacterial activity was enhanced with the change of self-assemblies’ morphology after the driving by thermal energy. This might be attributed to that NPs could influence amino acid biosynthesis and metabolism in bacteria. Current study provides a basis that co-decoction maybe beneficial to enhance activity and reasonable use of herbal formula granule in clinic.

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“…Hematite (α-Fe 2 O 3 ), a low band gap semiconducting metal oxide, is the most stable form of iron oxide, which can be synthesized under ambient conditions by nontoxic and ecofriendly methods. There are many reports on the preparation of porous α-Fe 2 O 3 with mesoporous structures using soft , and hard , template methods. However, soft template technique unavoidably resulted in amorphous frameworks, and hard templating techniques are usually obscured and time-consuming, which results in high costs and hinders the practical application of α-Fe 2 O 3 .…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Mechanism on Selective, Rapid, and Superior Adsorption of Congo Red by Reusable Mesoporous α-Fe₂O₃ Nanorods

Maiti

Mukhopadhyay

Devi

2017

ACS Sustainable Chem. Eng.

121

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A large scale synthesis of mesoporous hematite (α-Fe2O3) nanorods with a high surface area of 98 m2/g and an average pore size of ∼26 nm was used for adsorption studies for pollutant dye removal. The nanorods exhibited rapid, superior, and selective adsorption efficiency toward Congo red, an organic dye present in wastewater. Highly selective adsorption capability of the mesoporous α-Fe2O3 nanorods has been attributed to the presence of abundant surface active sites with porous networks which make it highly water dispersible facilitating the formation of H-bonding and coordination effect between the -NH2 group of Congo red with its surface -OH groups and Fe3+, respectively. Adsorption studies concerning the effect of contact time, initial dye concentration, dosage of adsorbent, and effect of pH on adsorption kinetics were explored in addition to the desorption process investigation regarding the effect of solution pH from acidic to alkaline. To unravel the unresolved phenomenon toward selective adsorption of Congo red by mesoporous α-Fe2O3 nanorods beyond conventional factors (viz., surface area/porosity, electrostatic interaction, and so on), investigation was also carried out by varying the nature of the different dye molecules as well as the phase and morphology of the α-Fe2O3 nanomaterials.

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Hematite Thin Films with Various Nanoscopic Morphologies Through Control of Self-Assembly Structures

Cited by 7 publications

References 53 publications

Self‐assembly Mesoporous FeP Film with High Porosity for Efficient Hydrogen Evolution Reaction

Self‐assembly Mesoporous FeP Film with High Porosity for Efficient Hydrogen Evolution Reaction

Thermodynamics driving phytochemical self-assembly morphological change and efficacy enhancement originated from single and co-decoction of traditional chinese medicine

Evaluation of Mechanism on Selective, Rapid, and Superior Adsorption of Congo Red by Reusable Mesoporous α-Fe₂O₃ Nanorods

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Hematite Thin Films with Various Nanoscopic Morphologies Through Control of Self-Assembly Structures

Cited by 7 publications

References 53 publications

Self‐assembly Mesoporous FeP Film with High Porosity for Efficient Hydrogen Evolution Reaction

Self‐assembly Mesoporous FeP Film with High Porosity for Efficient Hydrogen Evolution Reaction

Thermodynamics driving phytochemical self-assembly morphological change and efficacy enhancement originated from single and co-decoction of traditional chinese medicine

Evaluation of Mechanism on Selective, Rapid, and Superior Adsorption of Congo Red by Reusable Mesoporous α-Fe2O3 Nanorods

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Evaluation of Mechanism on Selective, Rapid, and Superior Adsorption of Congo Red by Reusable Mesoporous α-Fe₂O₃ Nanorods