A thermal flow sensor made of topological materials that can measure heat flow that was previously invisible.
We are developing thermal flow sensors using topological materials. Topological materials possess unique electronic structures that have not been seen in conventional materials, enabling device characteristics that respond quickly and sensitively to heat. Additionally, we are developing demo thermal flux sensors for joint research and development, which can be loaned to companies considering collaborative development. We can also conduct measurement tests in environments provided by companies, supporting the consideration of specific joint development projects. 【Applications】 ■ Fail-safe for batteries, etc. ■ Gas sensors ■ Monitoring in factories/production/insulation ■ Internal temperature measurement *For more details, please download the PDF or feel free to contact us.
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Example of Our Heat Flux Sensor (Main Specifications) ■ Dimensions: 20×20×0.5mm ⇒ It has been demonstrated to be thinner than existing heat flux sensors. ■ Thermoelectric Performance: 1μV/W/m² ⇒ It shows thermoelectric performance comparable to existing heat flux sensors. ■ Materials: MgO substrate 0.5mm, topological material 100nm, protective Kapton ⇒ It has a very simple structure compared to existing sensors, with excellent reliability and manufacturability. * The demo sensor is an internally developed sensor for simple verification purposes. In joint development, we will develop sensors tailored to your needs. (Area, shape, thickness, substrate material, etc.) * For more details, please download the PDF or feel free to contact us.
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For more details, please download the PDF or feel free to contact us.
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Our company was established with the aim of implementing new materials based on quantum science that exhibit unique properties known as "topological materials" into society. By implementing energy visualization, energy conservation, and utilization technologies that were not achievable with conventional materials, we promote QX (Quantum Transformation) and aim to surpass the limits of effective energy use, striving for the sustainable realization of a prosperous society.