Effects of vinyl series polymers on the formation of hematite particles in a forced hydrolysis reaction

Kandori, Kazuhiko; Yamoto, Yukihiro; Ishikawa, Tatsuo

doi:10.1016/j.jcis.2004.09.006

Cited by 26 publications

(18 citation statements)

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“…The investigation on the formation of hematite particles with different morphologies from the forced hydrolysis reaction of FeCl 3 -HCl solution in the presence of polymers was recently reported by our research group [1][2][3][4]. In the previous study, we found that polyvinyl alcohol (PVA; [(-CH 2 -CHOH-) n ]) varies the shape of hematite particles from spherical to disk-like by reducing their thickness [2], though polyethylene glycol (PEG; [(-CH 2 -CH 2 -O-) n ]) exhibits less strong effect and produces spherical hematite particles [1].…”

Section: Introductionmentioning

confidence: 96%

Effects of amino acids on the formation of hematite particles in a forced hydrolysis reaction

Kandori

Sakai

Inoue

et al. 2006

Journal of Colloid and Interface Science

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Section: Introductionmentioning

confidence: 96%

Effects of amino acids on the formation of hematite particles in a forced hydrolysis reaction

Kandori

Sakai

Inoue

et al. 2006

Journal of Colloid and Interface Science

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“…This agreement between secondary reduction step of [Fe(III)] and completion of phase transformation may indicate that the dissolution of ¢-FeOOH particle is a ratedetermining step in the reaction as the authors reported in a previous paper. 18) On the other hand, [Fe(III)] values for the systems with PEOs within 12 h are lower than the control system, indicating that the hydrolysis reaction of Fe(III) ions are accelerated at the initial stage of reaction. This acceleration may be attributed to the transfer of hydrated water from Fe(III) ions to PEO molecules in order to promote PEO dissolution at high temperature.…”

Section: Formation Mechanism Of Pseudocubic Hematite Particles In Thementioning

confidence: 90%

“…Clearly, the control system ( ) slowly produced spherical particles and the phase transformation from ¢-FeOOH to hematite was almost completed after aged for 5 d as well as reported in the previous paper. 18) However, the addition of PEOs enhanced the phase transformation, i.e., the phase transformation from tiny rod-like ¢-FeOOH to pseudocubic hematite particles was completed after aging for 2 d, indicating that these PEO molecules enhance the particle growth. This is due to the formation of fine ¢-FeOOH particles, i.e., these particles are readily dissolved and transferred to hematite phase though the TEM pictures are not shown.…”

Section: Formation Mechanism Of Pseudocubic Hematite Particles In Thementioning

confidence: 99%

Preparation and characterization of uniform pseudocubic hematite particles by utilizing polyethylene oxide polymers in forced hydrolysis reaction

Kandori

Yonekawa

2014

J. Ceram. Soc. Japan

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The monodispersity of pseudocubic hematite particles, produced from a forced hydrolysis reaction of acidic FeCl 3 solution, were controlled by using five kinds of polyethylene oxides (PEO; Alkox μ ; Mesei Chemical Works. Ltd.) (02 wt.%). Alkox μ possesses nominal formula of (CH 2 CH 2 O) n . The fairly uniform pseudocubic particles was precipitated for PEO with low M w value and narrow molecular weight distribution. However, POEs with large molecular weight and wide molecular weight distribution produced polydispersed pseudocubic hematite particles. The PEO with the largest molecular weight attained nearly spherical with large particle size distribution. From the calculation of crystallite size, all the pseudocubic hematite particles were regarded as a polycrystal as well as the large spherical hematite particles produced without Alkox μ (control system). This polycrystallinity of the particles provided an evidence that the particles are grown by aggregation of polynuclear (PN) primary particles. The specific surface areas of the particles (SSA) were ranged in 410 m 2 /g and no large difference can be recognized among five kinds of PEOs. Since the measured SSA values were corresponded to the SSA one calculated by assuming monodispersed cubic particle with 300 nm in edge length, the pseudocubic hematite particles are non-porous. The time resolved XRD, TEM, ICP-AES and TOC measurements employed on the systems produced for pseudocubic particles elucidated that the pseudocubic crystal habit was formed by the specific adsorption of PEO molecules together with chloride ions and/or chloro ferric complexes to the {012} faces, restraining the growth process through stacking of ultrafine PN particles in the direction of normal to the {012} faces but strictly restricting the growth and mutual fusion of PN ones. The uniform pesudocubic particles found to be effective photocatalytic material than spherical and/or polydispersed pseudocubic hematite ones due to their large size with uniform flat crystal faces.

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“…(1) (2) ．磁性流体や MR サスペンションは外部磁場により磁気粘性効果の発現および内部構造変化などの特性を示し，ダンパー，アクチュエータ，ならびに磁気記録材料への工学的応用を念頭に置いた研究がなされてきた (3)- (5) ．磁性流体および MR サスペンションに用いられる強磁性微粒子として，これまで主に球状酸化鉄粒子が用いられてきた．また近年，Fe-Pt 粒子 (6) (7) ，ならびに，コバルトフェライト粒子 (8) (9) などの高い保磁力を有する球状磁性微粒子の検討が行われている．一方，球状磁性粒子に代えて非球状磁性微粒子を用いることで新規機能性流体および新規機能性材料の高機能化が可能になるため，種々の形状を有する磁性微粒子 * 原稿受付 *1 正員，元秋田県立大学システム科学技術学部機械知能システム学科 *2 正員，秋田県立大学システム科学技術学部機械知能システム学科 (〒015-0055 秋田県由利本荘市土谷字海老ノ口 84-4) E-mail: asatoh@akita-pu.ac.jp が創製されている．種々の形状を示す磁性微粒子としてヘマタイト粒子がある．このヘマタイト粒子は調製法の違いにより，針状 (10) (11) ，扁平状 (12)- (14) ，ならびにキューブ状 (15) (16) などの形状を示す粒子が創製可能である．特に針状ヘマタイト粒子は粒子の短軸方向に磁化されており (10) (17) ，さらにマグネタイト粒子と比較して非常に弱い磁化を示す (17) (18) ．このため，粗大な針状ヘマタイト粒子は弱い磁化および粒子表面の電気 2 重層により，界面活性剤を用いなくても可逆的な凝集体を形成する．このように針状ヘマタイト粒子は強磁性棒状粒子とは異なる特徴を有している．このため，針状ヘマタイト粒子を機能性微粒子として用いることで，磁性流体や MR サスペンションとは異なる新規機能性流体の創製が期待できる．以上のような背景より，針状ヘマタイト粒子分散系を対象としたレオロジー特性に着目した種々の研究がなされてきた (19) (20) ．針状ヘマタイト粒子分散系の磁気粘性効果に着目した理論解析では，せん断流に対し垂直に磁場を印加すると，磁気力に基づく粘度が負になる逆磁気粘性効果の発生が理論的に予測されている (21) (22) ．また，コーン・プレート型粘度計による実験的検証により，針状ヘマタイト粒子分散系に逆磁気粘性効果が発生することが確認された (23) ．一方，せん断流と同方向に磁場を印加すると磁気力に基づく粘度が正の値になり，せん断流の回転角速度方向の印加磁場では磁気粘性効果が生じないことが理論解析により明らかになっている (24) …”

Section: 磁場に応答する機能性微粒子を母液に懸濁することで得られるコロイド分散系はせん断流および磁場により種々の機能性を発揮するunclassified

Influence of External Magnetic Field Direction on Orientational Distribution and Rheological Properties in a Dilute Suspension Composed of Spindle-Like Hematite Particles (Analysis with Consideration of Spin Rotational Brownian Motion)

Satoh

2013

Trans.JSME, Ser.B

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We have theoretically investigated the particle orientational and rheological properties of a dilute suspension composed of spindle-like hematite particles under a simple shear flow. We have derived the basic equation of the orientational distribution function with spin rotational Brownian motion. The basic equation has been solved numerically in order to investigate the influence of the shear rate, magnetic field strength, and rotational Brownian motion on the orientational distribution and rheological properties. For a very strong magnetic field applied in the shear flow direction, the particle inclines in the direction normal to the flow direction. Also, the particle is restricted in a plane normal to the shearing plane due to the spin rotational Brownian motion. The viscosity becomes large with increasing magnetic field strength. In the case of an external magnetic field applied in the direction of the angular velocity of a simple shear flow, the particle inclines toward a plane normal to the shearing plane, while the magnetic moment is restricted in the direction of the magnetic field. The particle can easily rotate around the magnetic moment under circumstances of a weak shear flow. For a strong shear flow, the particle inclines in the shear flow direction and does not rotate around the magnetic moment. The viscosity due to magnetic properties does not occur under the situation of a magnetic field applied in the direction of the angular velocity vector of a simple shear flow.

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Effects of vinyl series polymers on the formation of hematite particles in a forced hydrolysis reaction

Cited by 26 publications

References 9 publications

Effects of amino acids on the formation of hematite particles in a forced hydrolysis reaction

Effects of amino acids on the formation of hematite particles in a forced hydrolysis reaction

Preparation and characterization of uniform pseudocubic hematite particles by utilizing polyethylene oxide polymers in forced hydrolysis reaction

Influence of External Magnetic Field Direction on Orientational Distribution and Rheological Properties in a Dilute Suspension Composed of Spindle-Like Hematite Particles (Analysis with Consideration of Spin Rotational Brownian Motion)

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