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액상환원공정을 이용한 황산코발트로부터의 코발트 나노분말 합성Synthesis of nano sized cobalt powder from cobalt sulfate heptahydrate by liquid phase reduction

Other Titles
Synthesis of nano sized cobalt powder from cobalt sulfate heptahydrate by liquid phase reduction
Authors
An, Se HwanKim, Se HoonLee, Jin HoHong, Hyun SeonKIM, Young Do
Issue Date
Jun-2011
Publisher
한국재료학회
Keywords
Capping agent; Cobalt nano powder; Liquid-phase reduction; Polyol procococess
Citation
한국재료학회지, v.21, no.6, pp 327 - 333
Pages
7
Indexed
SCOPUS
KCI
Journal Title
한국재료학회지
Volume
21
Number
6
Start Page
327
End Page
333
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/168252
DOI
10.3740/MRSK.2011.21.6.327
ISSN
1225-0562
2287-7258
Abstract
Nanostructured cobalt materials have recently attracted considerable attention due to their potential applications in high-density data storage, magnetic separation and heterogeneous catalysts. The size as well as the morphology at the nano scale strongly influences the physical and chemical properties of cobalt nano materials. In this study, cobalt nano particles synthesized by a a polyol process, which is a liquid-phase reduction method, were investigated. Cobalt hydroxide (Co(OH)2), as an intermediate reaction product, was synthesized by the reaction between cobalt sulphate heptahydrate (CoSO4·7H2O) used as a precursor and sodium hydroxide (NaOH) dissolved in DI water. As-synthesized Co(OH)2 was washed and filtered several times with DI water, because intermediate reaction products had not only Co(OH)2 but also sodium sulphate (Na2SO4), as an impurity. Then the cobalt powder was synthesized by diethylene glycol (DEG), as a reduction agent, with various temperatures and times. Polyvinylpyrrolidone (PVP), as a capping agent, was also added to control agglomeration and dispersion of the cobalt nano particles. The optimized synthesis condition was achieved at 220oC for 4 hours with 0.6 of the PVP/Co(OH)2 molar ratio. Consequently, it was confirmed that the synthesized nano sized cobalt particles had a face centered cubic (fcc) structure and with a size range of 100-200 nm.
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