Sabine Akerboom scite author profile

We describe a scalable method to fabricate nanopatterned bioinspired dry adhesives using colloidal lithography. Close-packed monolayers of polystyrene particles were formed at the air/water interface, on which polydimethylsiloxane (PDMS) was applied. The order of the colloidal monolayer and the immersion depth of the particles were tuned by altering the pH and ionic strength of the water. Initially, PDMS completely wetted the air/water interface outside the monolayer, thereby compressing the monolayer as in a Langmuir trough; further application of PDMS subsequently covered the colloidal monolayers. PDMS curing and particle extraction resulted in elastomers patterned with nanodimples. Adhesion and friction of these nanopatterned surfaces with varying dimple depth were studied using a spherical probe as a counter-surface. Compared with smooth surfaces, adhesion of nanopatterned surfaces was enhanced, which is attributed to an energy-dissipating mechanism during pull-off. All nanopatterned surfaces showed a significant decrease in friction compared with smooth surfaces.

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Facile One‐Step Synthesis of Monodisperse Micron‐Sized Latex Particles with Highly Carboxylated Surfaces

Appel

Akerboom

Fokkink

et al. 2013

Macromol. Rapid Commun.

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A facile method for the aqueous synthesis of monodisperse and micronmeter-sized colloids with highly carboxylated surfaces is presented. The method is applied to three different monomers, styrene, methyl methacrylate, and 2,2,2-trifluoroethyl methacrylate, and illustrate tuning of the size and monodispersity in the reactions. High surface density of carboxylic acids of up to 10 COOH nm(-2) from potentiometric titrations, is achieved through copolymerization with itaconic acid. The versatility of this system is highlighted by creating highly fluorescent and monodisperse particles that can be index matched in aqueous solution and through surface modification via the carboxylic acid groups using standard amidation chemistry.

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Controlled Fabrication of Polypyrrole Surfaces with Overhang Structures by Colloidal Templating

Akerboom

Pujari

Turak

et al. 2015

ACS Appl. Mater. Interfaces

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Here we present the fabrication of polypyrrole (PPy) surfaces with a controlled overhang structure. Regularly structured PPy films were produced using interfacial polymerization around a sacrificial crystalline colloidal monolayer at the air/water interface. The morphology of the final inverse colloidal PPy film is controlled by the amount of monomer, the monomer: oxidant ratio and polymerization time. The PPy films exhibit an overhang structure due to depth of particle immersion in the water phase. As a result of the overhang structure, the PPy films are made hydrophobic, although the material itself is hydrophilic. The apparent contact angle of water on the structured surfaces is 109.5°, which is in agreement with the predicted contact angle using the Cassie-Baxter equation for air-filled cavities. This fabrication technique is scalable and can be readily extended to other systems where controlled wettability is required.

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Physical Gels Based on Charge-Driven Bridging of Nanoparticles by Triblock Copolymers

et al. 2012

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We have prepared an aqueous physical gel consisting of negatively charged silica nanoparticles bridged by ABA triblock copolymers, in which the A blocks are positively charged and the B block is neutral and water-soluble. Irreversible aggregation of the silica nanoparticles was prevented by precoating them with a neutral hydrophilic polymer. Both the elastic plateau modulus and the relaxation time increase slowly as the gel ages, indicating an increase both in the number of active bridges and in the strength with which the end blocks are adsorbed. The rate of this aging process can be increased significantly by applying a small shear stress to the sample. Our results indicate that charge-driven bridging of nanoparticles by triblock copolymers is a promising strategy for thickening of aqueous particle containing materials, such as water-based coatings.

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Functional Polymeric Materials Inspired by Geckos, Mussels, and Spider Silk

Włodarczyk‐Biegun

Filippov

Akerboom

et al. 2018

Macro Chemistry & Physics

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Nature has developed elegant and economical strategies to produce materials that are well‐adapted to their purposes. As biology evolved to remarkable and complex designs, synthetic mimics are evolving toward new levels of complexity achieving larger combinations of properties within one material. The field of bioinspiration encompasses a wide range of advanced materials ranging from biooptics to energy materials, to biomaterials. In this paper an overview is given of selected recent developments in the field of bioinspired material design focusing on gecko‐inspired adhesives, mussel‐inspired coatings, and spider silk‐inspired biomaterials.

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Sabine Akerboom

Enhanced adhesion of bioinspired nanopatterned elastomers via colloidal surface assembly

Facile One‐Step Synthesis of Monodisperse Micron‐Sized Latex Particles with Highly Carboxylated Surfaces

Controlled Fabrication of Polypyrrole Surfaces with Overhang Structures by Colloidal Templating

Physical Gels Based on Charge-Driven Bridging of Nanoparticles by Triblock Copolymers

Functional Polymeric Materials Inspired by Geckos, Mussels, and Spider Silk

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