Influences of spinel type and polymeric surfactants on the size evolution of colloidal magnetic nanocrystals (MFe2O4, M = Fe, Mn)
Author:
, , , , ,Year
: 2014
Abstract: Two types of polymeric surfactants, PEG300 and PVP40000, were used for the preparation of magnetic
ferrite MFe2O4(M = Mn, Fe) colloidal nanocrystals using a solvothermal reaction method. The effect of spinel type effect on the size evolution of various nanoparticles was investigated. It was found that Fe3O4 nanoparticles exhibited higher crystalinity and size evolution than MnFe2O4 nanoparticles with use of the two surfactants. It is proposed that this observation is due to fewer tendencies of surfactants on the surface of Fe3O4building blocks nanoparticles than MnFe2O4 . Less amounts of surfactant or capping agent on the surface of nanoparticles lead to the higher crystalibity and larger size. It is also suggested that the type of spinel (normal or inverted spinel) plays a key role on the affinity of the polymeric surfactant on the surface of building blocks
ferrite MFe2O4(M = Mn, Fe) colloidal nanocrystals using a solvothermal reaction method. The effect of spinel type effect on the size evolution of various nanoparticles was investigated. It was found that Fe3O4 nanoparticles exhibited higher crystalinity and size evolution than MnFe2O4 nanoparticles with use of the two surfactants. It is proposed that this observation is due to fewer tendencies of surfactants on the surface of Fe3O4building blocks nanoparticles than MnFe2O4 . Less amounts of surfactant or capping agent on the surface of nanoparticles lead to the higher crystalibity and larger size. It is also suggested that the type of spinel (normal or inverted spinel) plays a key role on the affinity of the polymeric surfactant on the surface of building blocks
Keyword(s): spinel type,polymeric surfactant,size evolution,mangnetic ferrite nanoparticle
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Influences of spinel type and polymeric surfactants on the size evolution of colloidal magnetic nanocrystals (MFe2O4, M = Fe, Mn)
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| contributor author | Shizhang QIAO | en |
| contributor author | طاهره روحانی بسطامی | en |
| contributor author | Chiwai KWONG | en |
| contributor author | محمدحسن انتظاری | en |
| contributor author | Tahereh Rohani Bastami | fa |
| contributor author | Mohammad Hassan Entezari | fa |
| date accessioned | 2020-06-06T13:20:33Z | |
| date available | 2020-06-06T13:20:33Z | |
| date issued | 2014 | |
| identifier uri | http://libsearch.um.ac.ir:80/fum/handle/fum/3350971?locale-attribute=en | |
| description abstract | Two types of polymeric surfactants, PEG300 and PVP40000, were used for the preparation of magnetic ferrite MFe2O4(M = Mn, Fe) colloidal nanocrystals using a solvothermal reaction method. The effect of spinel type effect on the size evolution of various nanoparticles was investigated. It was found that Fe3O4 nanoparticles exhibited higher crystalinity and size evolution than MnFe2O4 nanoparticles with use of the two surfactants. It is proposed that this observation is due to fewer tendencies of surfactants on the surface of Fe3O4building blocks nanoparticles than MnFe2O4 . Less amounts of surfactant or capping agent on the surface of nanoparticles lead to the higher crystalibity and larger size. It is also suggested that the type of spinel (normal or inverted spinel) plays a key role on the affinity of the polymeric surfactant on the surface of building blocks | en |
| language | English | |
| title | Influences of spinel type and polymeric surfactants on the size evolution of colloidal magnetic nanocrystals (MFe2O4, M = Fe, Mn) | en |
| type | Journal Paper | |
| contenttype | External Fulltext | |
| subject keywords | spinel type | en |
| subject keywords | polymeric surfactant | en |
| subject keywords | size evolution | en |
| subject keywords | mangnetic ferrite nanoparticle | en |
| journal title | Frontiers of Chemical Science and Engineering | fa |
| pages | 378-385 | |
| journal volume | 8 | |
| journal issue | 3 | |
| identifier link | https://profdoc.um.ac.ir/paper-abstract-1043699.html | |
| identifier articleid | 1043699 |