Emil Chibowski scite author profile

The term superhydrophilicity is only 11-12 years old and was introduced just after the explosion of research on superhydrophobic surfaces, in response to the demand for surfaces and coatings with exceptionally strong affinity to water. The definition of superhydrophilic substrates has not been clarified yet, and unrestricted use of this term to hydrophilic surfaces has stirred controversy in the last few years in the surface chemistry community. In this review, we take a close look into major definitions of hydrophilic surfaces used in the past, before we review the physics behind the superhydrophilic phenomenon and make recommendation on defining superhydrophilic surfaces and coatings. We also review chemical and physical methods used in the fabrication of substrates on surfaces of which water spreads completely. Several applications of superhydrophilic surfaces, including examples from the authors' own research, conclude this review.

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Synthesis of hydroxyapatite for biomedical applications

Szcześ

Hołysz

Chibowski

2017

Advances in Colloid and Interface Science

506

246

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Surface free energy of a solid from contact angle hysteresis

Chibowski

2003

Advances in Colloid and Interface Science

269

210

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Superhydrophilic and Superwetting Surfaces: Definition and Mechanisms of Control

Drelich¹,

Chibowski²

2010

Langmuir

325

189

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The term superhydrophobicity was introduced in 1996 to describe water-repellent fractal surfaces, made of a hydrophobic material, on which water drops remain as almost perfect spheres and roll off such surfaces leaving no residue. Today, superhydrophobic surfaces are defined as textured materials (and coatings) on (nonsmooth) surfaces on which water forms contact angles 150° and larger, with only a few degrees of contact angle hysteresis (or sliding angle). The terms superhydrophilicity and superwetting were introduced a few years after the term superhydrophobicity to describe the complete spreading of water or liquid on substrates. The definition of superhydrophilic and superwetting substrates has not been clarified yet, and unrestricted use of these terms sometimes stirs controversy. This Letter briefly reviews the superwetting phenomenon and offers a suggestion on defining superhydrophilic and superwetting substrates and surfaces.

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Aqueous suspension of fumed oxides: particle size distribution and zeta potential

Gun'ko

Zarko

Лебода

et al. 2001

Advances in Colloid and Interface Science

198

139

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Problems of contact angle and solid surface free energy determination

Chibowski

Perea-Carpio

2002

Advances in Colloid and Interface Science

223

151

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Use of the Washburn equation for surface free energy determination

Chibowski¹,

Hołysz²

1992

Langmuir

160

126

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Theory and practice of thin-layer wicking

Chibowski¹,

1993

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Theoretical considerations and experimental results are presented for the wicking process of a solid thin porous layer. This method was used for the solid surface free energy determinations. The commercial silica covered glass plates (Merck), used in thin-layer chromatography, were applied as a model material to check the derived equations as well as the experimental procedure. It is shown that the theoretical derivations, originating from Washburn's equation, and the obtained experimental results are consistent.The method should be especially useful for the solids of which a flat plate, suitable for contact angle measurements, cannot be obtained.

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Emil Chibowski

Hydrophilic and superhydrophilic surfaces and materials

Synthesis of hydroxyapatite for biomedical applications

Surface free energy of a solid from contact angle hysteresis

Superhydrophilic and Superwetting Surfaces: Definition and Mechanisms of Control

Aqueous suspension of fumed oxides: particle size distribution and zeta potential

Problems of contact angle and solid surface free energy determination

Use of the Washburn equation for surface free energy determination

Theory and practice of thin-layer wicking

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