Wisnu Setyo Pambudi scite author profile

Wisnu Setyo Pambudi

2Publications

68Citation Statements Received

46Citation Statements Given

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Affiliations

National Defense Academy of Japan

Publications

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Fabrication of superhydrophobic silicone rubber by ArF-excimer-laser-induced microstructuring for repelling water in water

Okoshi

Pambudi

2016

Appl. Phys. Express

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Microswellings of 1 µm height, 1.5 µm diameter, and regular intervals of 2.5 µm on a silicone rubber surface were fabricated using a 193 nm ArF excimer laser. The laser was focused on silicone by each microsphere made of silica glass of 2.5 µm diameter; these microspheres covered the entire surface of the silicone. The surface underneath each microsphere selectively swelled owing to the photodissociation of the Si–O bonds of silicone. The contact angle of water was measured to be approximately 155°, indicating a clear superhydrophobicity. The samples successfully repelled water in water to form an air gap layer between silicone and water.

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Formation of periodic microswelling structures on silicone rubber surface using ArF excimer laser to realize superhydrophobic property

Nojiri

Pambudi

Okoshi

2017

Jpn. J. Appl. Phys.

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Periodic microswelling structures were photochemically induced on a silicone rubber surface using a 193 nm ArF excimer laser. Microspheres made of silica glass (SiO2) of 2.5 µm diameter were aligned on the silicone rubber surface during laser irradiation; the laser beam was focused on the silicone surface underneath each microsphere. The height and diameter of the formed microswelling structures were found to be controllable by changing the Ar gas flow rate, single-pulse laser fluence, and laser irradiation time. The chemical bonding of the laser-irradiated sample did not change and thus remained to be a silicone, as analyzed by X-ray photoelectron spectroscopy. As a result, microswelling structures of approximately 1.3 µm height and 1.3 µm diameter were successfully obtained. The contact angles of water on the microstructured silicone were measured to be 150° and larger, clearly indicating superhydrophobicity. The mechanism by which the microswellings form their shape was discussed on the basis of the changes in the focal point and spot size during laser irradiation through the SiO2 microsphere.

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