Yoshitaka Iwata scite author profile

A stretchable thermoelectric (TE) generator was developed by using rigid BiTe-based TE elements and a non-stretchable substrate with origami-like folding deformation. Our stretchable TE generator contains flat sections, on which the rigid TE elements are arranged, and folded sections, which produce and guarantee the stretchability of a device. First, a simple stretchable device with a single pair of p-type and n-type BiTe-based TE elements was designed and fabricated. The TE elements were sandwiched between two folded polyimide-copper substrates. The length of the wiring between the flat sections changed from 1.0 mm in the folded state to 1.8 mm in the deployed state. It was also confirmed that the single-pair device could generate power in both the folded and deployed states. After this, a stretchable TE generator with eight pairs of p-type and n-type BiTe-based TE elements connected in series was created. The stretchable TE generator was capable of withstanding a stretching deformation of 20% and could also produce an output voltage in both the folded and deployed states.

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Stress-free stretchable electronic device using folding deformation

Iwata

Iwase

2017

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Fabrication and Properties in Ag/Bi2223 Tapes With Ca-Cu-O as Interfilamentary Resistive Barriers

Inada

Yasunami

Iwata

et al. 2007

IEEE Trans. Appl. Supercond.

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Current status of level 2 product of Superconducting Submillimeter-Wave Limb-Emission Sounder (SMILES)

Mitsuda

Suzuki

Iwata

et al. 2011

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New level 2 products v2.0 of JEM/SMILES are scheduled to be released in Sep., 2011. This will be the first publicreleased version. In pre-released product v1.3, positive bias of retrieved temperature in the stratosphere was the largest issue since temperature is basic parameter which characterizes the atmospheric structure. The new product use latest L1B 007 which includes gain nonlinearity effect of receivers, bias of temperature in upper stratosphere is suppressed. In addition, we stopped temperature retrieval above 40km and refer MLS temperature product with applying migrating tidal model. HCl profiles in mesosphere become constant, which supports this temperature processing.

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Self-rolling up micro 3D structures using temperature-responsive hydrogel sheet

Iwata

Miyashita

Iwase

2017

J. Micromech. Microeng.

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This paper proposes a micro self-folding using a self-rolling up deformation. In the fabrication method at micro scale, self-folding is an especially useful method of easily fabricating complex threedimensional (3D) structures from engineered two-dimensional (2D) sheets. However, most self-folded structures are limited to 3D structures with a hollow region. Therefore, we made 3D structures with a small hollow region by self-rolling up a 2D sheet consisting of SU-8 and a temperature-responsive hybrid hydrogel of poly(N-isopropylacrylamide-co-acrylic acid) (pNIPAM-AAc). The temperature-responsive hydrogel can provide repetitive deformation, which is a good feature for micro soft robots or actuators, using hydrogel shrinking and swelling. Our micro self-rolling up method is a self-folding method for a 3D structure performed by rolling up a 2D flat sheet, like making a croissant, through continuous self-folding. We used our method to fabricate 3D structures with a small hollow region, such as cylindrical, conical, and croissant-like ellipsoidal structures, and 3D structures with a hollow region, such as spiral shapes. All the structures showed repetitive deformation, forward rolling up in 20 °C cold water and backward rolling up in 40 °C hot water. The results demonstrate that self-rolling up deformation can be useful in the field of micro soft devices.

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Yoshitaka Iwata

Programmable Medicine: Autonomous, Ingestible, Deployable Hydrogel Patch and Plug for Stomach Ulcer Therapy

Printed Paper Robot Driven by Electrostatic Actuator

Capability for ozone high-precision retrieval on JEM/SMILES observation

Design of Substrate Stretchability Using Origami-Like Folding Deformation for Flexible Thermoelectric Generator

Stress-free stretchable electronic device using folding deformation

Fabrication and Properties in Ag/Bi2223 Tapes With Ca-Cu-O as Interfilamentary Resistive Barriers

Current status of level 2 product of Superconducting Submillimeter-Wave Limb-Emission Sounder (SMILES)

Self-rolling up micro 3D structures using temperature-responsive hydrogel sheet

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