Topi Tupasela scite author profile

Topi Tupasela

5Publications

34Citation Statements Received

37Citation Statements Given

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Affiliations

Radiation and Nuclear Safety Authority, Aalto University

Publications

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Tunable and Magnetic Thiol–ene Micropillar Arrays

Al‐Azawi

Cenev

Tupasela

et al. 2019

Macromol. Rapid Commun.

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like tunable non-wettability and responsive properties, which ultimately can lead to new avenues in applications and functionalities in microfluidic devices and cell handling.Thiol-ene chemistry has emerged recently as a viable route toward polymer microfabrication due to its compatibility with existing microfabrication techniques and minimal requirement for investment. [2] Thiol-ene refers to the UV-initiated click chemistry reaction that occurs between thiol and allyl groups in a mixture containing two chemical components in its simplest form, one with thiol groups and the other with allyl groups mixed together in liquid form at stoichiometric or offstoichiometric ratio. It offers remarkable properties like fast curing where 2 mm thick thiol-ene layer is fully cured by UV dose of approximately 100 J m −2[3] and the ability to tune the mechanical properties of the material from low Young's modulus value of less than 11 MPa [4] to high Young's modulus value of 1750 MPa [2a] by controlling the crosslinking density. Furthermore, rapid and direct surface modification for adjusting the surface energy can be achieved with simple post-functionalization of hydrophobic groups. [2] Thiol-ene is therefore a promising material for polymer-based functional materials including micropatterned responsive surfaces.Magnetically responsive micropatterned surfaces actuated by external non-invasive stimuli allow instantaneous tuning of surface properties such as adhesion, [5] structural coloration, [6] and surface wettability. [7] Notable applications of magnetic pillars that have been reported include tactile force sensing, [8] liquid flow sensing, [9] mixing in microfluidic devices, [10] mixing of droplets, [11] switchable adhesive surfaces, [5a] cell analysis, [12] directional wetting, [13] real-time manipulation of light, [6] micromanipulation of beads, [14] and droplet transport. [15] The fabrication schemes in the reported cases involve either magnetic particle self-assembly under magnetic field or replica molding with polydimethylsiloxane (PDMS) as the common soft elastomeric material. Thiol-ene based materials have not been explored yet for responsive superhydrophobic surfaces.Here, we develop magnetic thiol-ene micropillar arrays that demonstrate fast responsiveness, suitable for droplet transport applications. The advantage of using thiol-ene is the tunability of elastic and surface properties. The elastic properties of the thiol-ene pillars are tuned by controlling the crosslinking Tunable and responsive surfaces offer routes to multiple functionalities ranging from superhydrophobic surfaces to controlled adhesion. Inspired by cilia structure in the respiratory pathway, magnetically responsive periodic arrays of flexible and magnetic thiol-ene micropillars are fabricated. Omnidirectional collective bending of the pillar array in magnetic field is shown. Local non-contact actuation of a single pillar is achieved using an electromagnetic needle to probe the responsiveness and the elastic properties of the pillars by comp...

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PNAR Measurement Report

Tobin

Tupasela

Dendooven

et al. 2019

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Slippery and magnetically responsive micropillared surfaces for manipulation of droplets and beads

Al‐Azawi

Hörenz

Tupasela

et al. 2020

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Stimuli-responsive surfaces are of practical importance for applications ranging from enhanced mixing of reagents in lab-on-a-chip systems until probing cellular traction forces. Non-destructive reversible bending of cilia-inspired magnetic pillars can be used for controlled transportation of non-magnetic objects and bio-inspired sensing. Magnetic actuation of micropillars suspended in liquids allows controlled mixing, propelling, and stirring of fluids as well as droplet manipulation, which are important for various applications including generation of cell spheroids and droplet coalescence in microfluidic systems. In order to expand their practical applications, fabrication processes capable of rapid prototyping have to be developed. Inspired by biological cilia and their functionalities, actuating hairy surfaces are herein fabricated and implemented to manipulate both microbeads and droplets. The artificial cilia are based on microscale magnetic pillar arrays made of flexible polydimethylsiloxane functionalized with magnetic microparticles. The arrays are fabricated by a new method using patterned molds that relies on cryogenic separation to produce transparent cilia-inspired arrays without requiring manual interference to clean the templates during the process. Magnetic actuation of the pillar arrays is demonstrated in isopropanol and silicone oil. Filling with oil yields magnetically responsive slippery lubricated surfaces allowing directional motion of droplets by repetitive bending and recovery of the flexible magnetic pillars. The achieved structures allow manipulation of microbeads and droplets which is uncommon even at the sub-mm scale; directional motion is demonstrated for 250 μm–550 μm sized droplets. Droplet transportation is facilitated by extremely low hysteresis and a high degree of omnidirectional bending of the pillar array.

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Passive neutron albedo reactivity measurements of spent nuclear fuel

Tupasela

Dendooven

Tobin

et al. 2021

Nuclear Instruments and Methods in Physics Research Section A:

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Publisher’s Note: “Slippery and magnetically responsive micropillared surfaces for manipulation of droplets and beads” [AIP Adv. 10, 085021 (2020)]

Al‐Azawi

Hörenz

Tupasela

et al. 2020

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Topi Tupasela

Tunable and Magnetic Thiol–ene Micropillar Arrays

PNAR Measurement Report

Slippery and magnetically responsive micropillared surfaces for manipulation of droplets and beads

Passive neutron albedo reactivity measurements of spent nuclear fuel

Publisher’s Note: “Slippery and magnetically responsive micropillared surfaces for manipulation of droplets and beads” [AIP Adv. 10, 085021 (2020)]

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