Masatoshi Chikazawa scite author profile

Wettability and the adhesion force between two silica particles were measured as a function of relative humidity. The wettability of silica particles was controlled by rehydroxylation and modification by hexamethyldisilazane and evaluated by a preferential dispersion test, heat of immersion, and water adsorption. The adhesion force between two particles was measured by atomic force microscopy using a "colloidal technique". The wettability varied from hydrophilic to hydrophobic at trimethylsilyl density ) 1.0 nm -2 as modified groups shielded the residual silanol groups and hindered the formation of a capillary bridge between the two particles. This "hindrance effect" is thought to result in the absence of a critical increase in adhesion force at high relative humidity and also the reduction of surface energy at low humidity where hydrogen bonding dominated the adhesion force.

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Changes in density and surface tension of water in silica pores

Takei¹,

Mukasa²,

Kofuji³

et al. 2000

Colloid & Polymer Science

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Water Adsorption Properties on Porous Silica Glass Surface Modified by Trimethylsilyl Groups

Takei

Yamazaki

Watanabe

et al. 1997

Journal of Colloid and Interface Science

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Influence of thermal treatment on the structure of calcium hydroxyapatite

Tanaka

Chikazawa

Kandori

et al. 2000

Phys. Chem. Chem. Phys.

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FTIR and TPD studies on the adsorption of pyridine, n-butylamineand acetic acid on calcium hydroxyapatite

Tanaka¹,

Watanabe²,

Chikazawa³

1997

Faraday Trans.

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Colloidal calcium hydroxyapatite (CaHAP) particles synthesized by a wet method and calcined at di †erent temperatures up to 900 ¡C have been characterized by various means. The adsorption species and sites on the CaHAP surface for pyridine, nbutylamine and acetic acid were clariÐed by FTIR and TPD. These molecules were shown to be adsorbed by hydrogen-bonding to the surface PwOH groups. The surface PwOH groups of CaHAP were removed by outgassing above 600 ¡C to produce surface PwOwP groups. The n-butylamine is hydrogen bonded to the surface PwOwP species.

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