Mun Yeong Son scite author profile

Hollow and yolk-shell metal oxide powders used as energy storage materials exhibit good electrochemical properties at high current density because of their shortened diffusion length and increased amount of contact area between the electrolyte and the electrode for Li + insertion/extraction. Although various types of hollow-structured oxide materials have been studied as anode and cathode electrode materials for lithium secondary batteries, [13][14][15][16][17][18][19][20][21][22][23][24][25] the hollow-structured powders cannot be readily applied as battery materials because of their low energy densities due to low tab density. The disadvantages of the hollow materials can be overcome using core@void@shellconfi gured yolk-shell-structured powder particles. The core of such yolk-shell-structured powder particles will improve the rate capability as well as the energy density of the powders by increasing the weight fraction of the electrochemically active component. [ 12 , 15 ] The structures of the metal oxides that undergo large changes in volume during Li + insertion/extraction strongly affect the electrochemical properties of the anodes produced using such materials. The voids between the yolk and the shell can also serve as a buffering space for the electroactive core material during lithium insertion and extraction; therefore, various types of yolk-shell-structured metal oxides prepared using hydrothermal, coprecipitation, and shell-by-shell deposition methods have previously been studied as anode electrode materials. [ 1-7 , 9-14 ] According to previous reports, the yolk-shell-structured powders were mainly prepared using a multistep solution method; [ 1-10 , 12-14 , 27-37 ] therefore, a scalable one-pot method should be developed for the large-scale production of yolk-shellstructured powders. We report a novel, simple one-pot method of systematically synthesizing double-shelled yolk-shell-structured powders by scalable spray pyrolysis, which is one of the gas phase reaction methods. The electrochemical properties of yolk-shell-structured SnO 2 powders prepared using the hydrothermal method have previously been well studied. [3][4][5] Therefore, in this study, SnO 2 was selected as the fi rst target material to develop the yolk-shell-structured powders with spray pyrolysis. The mechanism of the formation of the double-shelled SnO 2 yolk-shell-structured powders in spray pyrolysis was investigated.The morphologies and dot-mapping images of the SnO 2 powder particles directly prepared using spray pyrolysis are shown in Figure 1 . The SEM and TEM images show that the powder particles of all sizes exhibit uniform yolk-shell structures. Mobile spherical core powder is located inside the uniformly thick spherical shell, as shown in the SEM image in the insert of Figure 1 a. The HR-TEM images of the powder particles, as shown in Figure 1 c, reveal the double-shelled yolkshell structure of the particles. The dot mappings for the Sn and O components, as shown in Figure 1 e, are consistent with the double-shelle...

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One-pot synthesis of Fe2O3 yolk–shell particles with two, three, and four shells for application as an anode material in lithium-ion batteries

Son

Hong

Lee

et al. 2013

Nanoscale

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One‐Pot Synthesis of Yolk–Shell Materials with Single, Binary, Ternary, Quaternary, and Quinary Systems

Hong

Son

Park

et al. 2013

Small

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Superior electrochemical properties of Co3O4 yolk–shell powders with a filled core and multishells prepared by a one-pot spray pyrolysis

2013

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Electrochemical properties of bare nickel sulfide and nickel sulfide–carbon composites prepared by one-pot spray pyrolysis as anode materials for lithium secondary batteries

Son

Choi

Kang

2014

Journal of Power Sources

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Mun Yeong Son

One‐Pot Facile Synthesis of Double‐Shelled SnO₂ Yolk‐Shell‐Structured Powders by Continuous Process as Anode Materials for Li‐ion Batteries

One-pot synthesis of Fe2O3 yolk–shell particles with two, three, and four shells for application as an anode material in lithium-ion batteries

One‐Pot Synthesis of Yolk–Shell Materials with Single, Binary, Ternary, Quaternary, and Quinary Systems

Superior electrochemical properties of Co3O4 yolk–shell powders with a filled core and multishells prepared by a one-pot spray pyrolysis

Electrochemical properties of bare nickel sulfide and nickel sulfide–carbon composites prepared by one-pot spray pyrolysis as anode materials for lithium secondary batteries

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Mun Yeong Son

One‐Pot Facile Synthesis of Double‐Shelled SnO2 Yolk‐Shell‐Structured Powders by Continuous Process as Anode Materials for Li‐ion Batteries

One-pot synthesis of Fe2O3 yolk–shell particles with two, three, and four shells for application as an anode material in lithium-ion batteries

One‐Pot Synthesis of Yolk–Shell Materials with Single, Binary, Ternary, Quaternary, and Quinary Systems

Superior electrochemical properties of Co3O4 yolk–shell powders with a filled core and multishells prepared by a one-pot spray pyrolysis

Electrochemical properties of bare nickel sulfide and nickel sulfide–carbon composites prepared by one-pot spray pyrolysis as anode materials for lithium secondary batteries

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Product

Resources

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One‐Pot Facile Synthesis of Double‐Shelled SnO₂ Yolk‐Shell‐Structured Powders by Continuous Process as Anode Materials for Li‐ion Batteries