Keltoum Ouzineb scite author profile

Soft adhesives require an optimum balance of viscous and elastic properties. Adhesion is poor when the material is either too solidlike or too liquidlike. The ability to switch tack adhesion off at a desired time has many applications, such as in recycling, disassembly of electronics, and painless removal of wound dressings. Here, we describe a new strategy to switch off the tack adhesion in a model nanocomposite adhesive in which temperature is the trigger. The nanocomposite comprises hard methacrylic nanoparticles blended with a colloidal dispersion of soft copolymer particles. At relatively low volume fractions, the nanoparticles (50 nm diameter) accumulate near the film surface, where they pack around the larger soft particles (270 nm). The viscoelasticity of the nanocomposite is adjusted via the nanoparticle concentration. When the nanocomposite is heated above the glass transition temperature of the nanoparticles (T g = 130 °C), they sinter together to create a rigid network that raises the elastic modulus at room temperature. The tackiness is switched off. Intense infrared radiation is used to heat the nanocomposites, leading to a fast temperature rise. Tack adhesion is switched off within 30 s in optimized compositions. These one-way switchable adhesives have the potential to be patterned through localized heating.

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Probing particle structure in waterborne pressure-sensitive adhesives with atomic force microscopy

Lei

Ouzineb²,

Dupont³

et al. 2007

Journal of Colloid and Interface Science

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Keltoum Ouzineb

Fine Tuning the Adhesive Properties of a Soft Nanostructured Adhesive with Rheological Measurements

Deformation and adhesion of a periodic soft–soft nanocomposite designed with structured polymer colloid particles

Mechanical Properties of Adhesive Films Obtained from PU−Acrylic Hybrid Particles

Switching Off the Tackiness of a Nanocomposite Adhesive in 30 s via Infrared Sintering

Probing particle structure in waterborne pressure-sensitive adhesives with atomic force microscopy

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