Mesoporous Hydrous Manganese Dioxide Nanowall Arrays with Large Lithium Ion Energy Storage Capacities

Liu, Dawei; García, Betzaida Batalla; Zhang, Zuo‐Feng; Guo, Qing; Zhang, Yunhuai; Sepehri, Saghar; Cao, Guozhong

doi:10.1002/adfm.200801515

Cited by 159 publications

(108 citation statements)

References 55 publications

(51 reference statements)

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“…It can be seen that the surface contains nanosized pores that are distributed uniformly on the surface. It has been reported that gas bubbles during electrodeposition can result in the mesoporous film formation [39]. Beside this effect, as seen in marked areas of Fig.…”

Section: Resultsmentioning

confidence: 92%

On the electrocrystallization of pure hydroxyapatite nanowalls on Nitinol alloy using a bipolar pulsed current

Etminanfar

Khalil‐Allafi

Parsa

2016

Journal of Alloys and Compounds

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a b s t r a c tIn this study a bipolar pulsed current was used for the electrochemical deposition of calcium phosphate coatings on the Nitinol superelastic alloy. The coatings were characterized using FE-SEM, XRD, FTIR, HRTEM, and gas adsorption techniques. Results show that the electrodeposited coating is a crystalline film which is composed of pure hydroxyapatite (HA) nanowalls. According to the FTIR data, the coating is free from other metastable calcium phosphate phases like octacalcium phosphate. It was shown that both monoclinic and hexagonal phases can be detected in HRTEM images and related SAED patterns. The coating, which is deposited at direct and reverse current densities of À3.0 and 0.1 mA/cm 2 respectively, revealed a surface area of 38.5 m 2 /g and ultra-fine pores were detected in the surface of the coating plates. Study on the effect of the reverse pulse current revealed that the volume of porosity is increased by increasing in the current density of the reverse pulse. Also in this condition the resulted film was composed of nanosized HA crystals. It seems that the reverse current step can influence the porosity and the structure of the coatings by dissolution of the unstable phases which are formed during direct current step of the bipolar pulse deposition.

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Section: Resultsmentioning

confidence: 92%

On the electrocrystallization of pure hydroxyapatite nanowalls on Nitinol alloy using a bipolar pulsed current

Etminanfar

Khalil‐Allafi

Parsa

2016

Journal of Alloys and Compounds

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“…Most previous studies of electrochemical deposition of MnO 2 were based on anodic deposition via a positive potential-namely, the starting Mn 2+ species can be oxidized to Mn 4+ and deposited as MnO 2 [33,37,51]. However, there have been few reports focusing on the cathodic electrochemical deposition of MnO 2 at a negative potential because of the different growth mechanisms [47,52]. In this work, we established a facile and effective way for the simultaneous electrochemical reduction of GN and cathodic electrochemical deposition of MnO 2 .…”

Section: Resultsmentioning

confidence: 99%

One-step electrochemical approach to the synthesis of Graphene/MnO2 nanowall hybrids

et al. 2011

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We have demonstrated a one-step and effective electrochemical method to synthesize graphene/MnO 2 nanowall hybrids (GMHs). Graphene oxide (GO) was electrochemically reduced to graphene (GN), accompanied by the simultaneous formation of MnO 2 with a nanowall morphology via cathodic electrochemical deposition. The morphology and structure of the GMHs were systematically characterized by scanning electron microscope (SEM), X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and Raman spectroscopy. The resulting GMHs combine the advantages of GN and the nanowall array morphology of MnO2 in providing a conductive network of amorphous nanocomposite, which shows good electrochemical capacitive behavior. This simple approach should find practical applications in the large-scale production of GMHs.

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“…Since both Mn(OH) 2 and Al(OH) 3 formed by the reaction between Mn/Al salts and NH 4 OH have very low solubility in water, their precipitation occurs in aqueous solution. 15,[30][31][32][33][34][35][36] During this precipitation process, the precursors of composites were prepared through the hydrogen bonding between Mn(OH) 2 and Al(OH) 3 . Then, alumina-manganese oxide composite particles could be obtained after the calcination of precursor powders.…”

Section: Resultsmentioning

confidence: 99%

Synthesis of Alumina-Grafted Manganese Oxide Particles Using Surfactants through Coprecipitation Method and Their Thermal Properties

Kwon¹,

Park²,

Jang³

et al. 2013

Bulletin of the Korean Chemical Society

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Alumina particles were grafted onto the surface of manganese oxide particles via the coprecipitation process using surfactant and cosurfactant. The phase of Mn/Al salts (Phase I) and the phase of precipitation agent (Phase II) were prepared in aqueous surfactant solution, separately. Phase II was added into Phase I and the reaction was performed to form the precursors of composites through hydrogen bonding between Mn(OH) 2 and Al(OH) 3 prepared by the reaction of Mn/Al salts with the precipitation agent. The alumina-grafted manganese oxide particles were obtained as a final product after calcination. The concentrations of Al salt and surfactant were varied to investigate their effects on the formation and the crystallinity of composites. In addition, the crystal structure of products could be controlled by changing the calcination temperature. Through thermal analyses, it was found that the thermal stability of manganese oxide was improved by the introduction of alumina on its surface.

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Mesoporous Hydrous Manganese Dioxide Nanowall Arrays with Large Lithium Ion Energy Storage Capacities

Cited by 159 publications

References 55 publications

On the electrocrystallization of pure hydroxyapatite nanowalls on Nitinol alloy using a bipolar pulsed current

On the electrocrystallization of pure hydroxyapatite nanowalls on Nitinol alloy using a bipolar pulsed current

One-step electrochemical approach to the synthesis of Graphene/MnO2 nanowall hybrids

Synthesis of Alumina-Grafted Manganese Oxide Particles Using Surfactants through Coprecipitation Method and Their Thermal Properties

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