Tomoyuki Tsuchida scite author profile

Tomoyuki Tsuchida

5Publications

37Citation Statements Received

18Citation Statements Given

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Affiliations

Akita University

Publications

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Micro Press Molding of Borosilicate Glass Using Plated Ni–W Molds

Yasui

Takahashi

Kaneko

et al. 2007

jjap

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The hot embossing of glass with a size on the submicron or micron level is a target of interest for the industrial production of products such as microdevices. For fluidic micro chip applications, polymer materials have been used with the advantage of a relatively low cost of fabrication. However, glass is suitable for high-temperature applications such as in microreactors.Although glass is also a good candidate material for optical devices because of its enhanced optical properties, the development of mold materials has not been established for the hot embossing of glass. In this study, we used Ni-W as a mold material for the hot embossing of glass. A plated Ni-W film has a high heat resistance and a linear expansion coefficient, properties that are similar to those of glass materials. Focused ion beam (FIB) machining was employed for the micron and submicron structurings of a Ni-W mold material. Borosilicate glass, D263, was used as glass material. Glass patterns of 0.4 mm width were obtained by hot embossing with the Ni-W mold.

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Micro lens imprinted on Pyrex glass by using amorphous Ni–P alloy mold

Mekaru

Tsuchida²,

Uegaki³

et al. 2008

Microelectronic Engineering

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Development of Ni–P-Plated Inconel Alloy Mold for Imprinting on Pyrex Glass

Mekaru

Okuyama

Tsuchida³

et al. 2009

jjap

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We fabricated microlenses and the logo of the National Institute of Advanced Industrial Science and Technology (AIST) on Pyrex glass by employing thermal nanoimprint technology. The mold material used for imprinting on Pyrex glass was an amorphous Ni-P alloy that was deposited on Inconel-600 by electroless plating technology. The complete fabrication technique consisted of highly accurate processing by focused-ion-beam (FIB) on material that involved a high-temperature thermal treatment that has the advantage of improving the hardness of the mold. An amorphous Ni-P alloy layer on an Inconel-600 substrate was characterized by measuring its X-ray diffraction spectrum. Using this technique we successfully developed a low-cost mold for imprinting on Pyrex glass instead of using a more expensive glass-like carbon mold that is commonly used for this purpose. Microlenses with concave curvatures having radii of 12 and 20 mm were created on the mold by a FIB system equipped with three-dimensional computer-aided-design (CAD) software. This mold was used for thermal imprinting on Pyrex glass substrates to fabricate microlenses and the AIST logo. When polished Inconel-600 was used as a substrate for molds, the accuracy of the Ni-P mold proved to be of higher quality than a mold made of unpolished Inconel-600. The microlenses made using Ni-P/ polished-Inconel-600 molds showed lubricious surfaces that were not possible to achieve using Ni-P/unpolished-Inconel-600 molds. Moreover, some of the parameters in Ni-P electroless plating were changed in order to make three kinds of molds with P content ratios of 4, 8, and 16 wt %. The micro-vickers hardness caused by thermal treatment and the differences among the transcript values on Pyrex glass were also evaluated experimentally.

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Formation of Molybdenum Silicide by Molten Salt Electrodeposition.

Hara

Tsuchida

1998

J. Surf. Finish Soc. Jpn.

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A131 Nano-scale sputtering behavior in Focused Ion Beam Processing via Large-Scale Molecular Dynamics Simulation

Satake

Inoue

Taniguchi

et al. 2006

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