Kazuma Isobe scite author profile

Spectral absorptance of a metal-semiconductor-metal (MSM) thin-multilayer structured thermo-photovoltaic cell was experimentally investigated. A MSM consists of a thin GaSb-semiconductor sandwiched between a top fishnet-type electrode and a flat backside electrode made of gold. A thin GaSb layer was grown on a substrate made of InAs using molecular beam epitaxy, and then all of the InAs substrate was removed using wet etching. The GaSb film was bonded on a surface of gold, which was sputtered on a Si substrate, using a van der Waals bonding method. The top fishnet-type electrode was made using electron beam lithography and a lift-off process. In the case of a 115 nm thick GaSb layer and a square fishnet aperture of a 300 nm × 310 nm size, the spectral absorptance of MSM reached a local peak (95%) at a wavelength of 1.66 µm, which is similar to spectra predicted by numerical simulation. Moreover, the equivalent resonance cavity model and LC circuit model functioned well to indicate the wavelength of several distinct peaks of absorptance.

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Spectrally enhanced near-field radiation transfer using nanometer-sized pillar array structured surfaces

Isobe

Hirashima

Hanamura

2017

International Journal of Heat and Mass Transfer

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Wettability Difference Induced Out-of-Plane Unidirectional Droplet Transport for Efficient Fog Harvesting

Yamada

Sakata

Isobe

et al. 2021

ACS Appl. Mater. Interfaces

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Securing freshwater resources is a global issue for ensuring sustainable development. Fog harvesting is attracting great attention as a method to collect water without any energy input. Previous reports that were inspired by insects and plants have given insights such as the effectiveness of in-plane wettability and structural differences for droplet transport, which might enhance artificial water harvesting efficiency. However, further efforts to transfer droplets while maintaining performance are needed because droplet motion owing to these effects is limited to the in-plane direction. In this study, we report droplet transport between three-dimensional copper wire structures with nanostructured hydrophobic and superhydrophilic features. This mechanism enhanced the fog harvesting capability by more than 20% compared with the cumulative value of individual wires. In addition, the relationship between the droplet height and spacing of wires affected the performance. Our results show the importance of out-of-plane directional droplet transport from the wire surface assisted by differences in wire wettability, which minimizes limiting factors of fog harvesting including clogging and droplet shedding. Furthermore, the proposed arrangement reduces the overall system width compared with that of a two-dimensional arrangement while maintaining the amount of harvested water. These results provide a promising approach to designing large-scale and highly efficient fog harvesters.

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Experimental study of evaluation of dynamical utilization of a microencapsulated phase change material slurry based on temperature range matching analysis

Yuan

Liang

Xue

et al. 2022

International Communications in Heat and Mass Transfer

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Kazuma Isobe

Droplet motion on a wrinkled PDMS surface with a gradient structural length scale shorter than the droplet diameter

Spectral absorptance of a metal-semiconductor-metal thin-multilayer structured thermophotovoltaic cell

Spectrally enhanced near-field radiation transfer using nanometer-sized pillar array structured surfaces

Wettability Difference Induced Out-of-Plane Unidirectional Droplet Transport for Efficient Fog Harvesting

Experimental study of evaluation of dynamical utilization of a microencapsulated phase change material slurry based on temperature range matching analysis

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