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Clay nanosheets with excellent adsorption properties (Shinshu University, Faculty of Engineering)

Clay nanosheets with excellent adsorption properties (Shinshu University, Faculty of Engineering)

Without damaging the original silica shape, a hectorite-like layered silicate grows selectively on the surface.

We will introduce the technology for directly cultivating clay nanosheets with excellent adsorption properties using silica gel. Cation exchange materials are utilized by being packed into columns or dispersed in water, but in the latter case, it is important that the adsorbent can be easily recovered. In conventional technologies, recovery through filtration or centrifugation can be difficult when dealing with fine particles (at the nanoscale). In this technology, the material hardly delaminates even in solvents that typically cause swelling and delamination, making recovery from the solution easy. Since it thinly coats the silica surface, it is useful for separation in distribution systems. 【Features】 - Hardly delaminates even in solvents that cause swelling and delamination - Easy recovery from the solution - Thinly coats the silica surface, aiding in separation in distribution systems - Not dependent on the shape of the starting silica *For more details, please refer to the PDF document or feel free to contact us.

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Tohoku University Technology: Nanosheets and Their Manufacturing Method: T19-821

Tohoku University Technology: Nanosheets and Their Manufacturing Method: T19-821

Possible to integrate into small electronic device and to control heat flow

Actually, the waste heat below 200℃ emitted by electronic device, etc., is difficult to control and therefore, it is not effectively reused. This heat reduces performance and lifespan of electronic device. A heat engine that uses MEMS to control the heat flow has been developed, but it requires a relatively large space to house the drive unit, making it difficult to integrate into small electronic device.  This invention is able to provide nanosheet and nanosheet manufacturing method. This nanosheet can be easily integrated into small electronic device, etc. which can control heat flow. It has a copper oxide layer with Cu and O bonded in a chain forming a ladder pattern, and its thickness is less than 100 nm. Due to this thinness, the nanosheet can be easily integrated into electronic devices that are becoming smaller, and the thermal conductivity can be controlled easily.

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Tin sulfide nanosheet

Tin sulfide nanosheet

Consideration for the human body and the environment! It can be manufactured on a 2-inch substrate using P-type semiconductors, possessing high orientation and low resistance.

The material "tin sulfide" used in the "tin sulfide nanosheet" does not contain harmful substances, and the elements that make it up are found in nature, making it considerate of human health and the environment. It can be manufactured on a 2-inch substrate as a P-type semiconductor, featuring high orientation and low resistivity. Sample provision, orientation, film thickness, and crystal color can be adjusted. 【Example of Sheet Characteristics (Partial)】 ■ Type: P-type ■ Crystal Color: Gray ■ Film Thickness: 400-600nm ■ Orientation: 010 ■ Resistivity: 10-20Ωcm *For more details, please refer to the PDF document or feel free to contact us.

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Tohoku University Technology: Layered nanosheet: T20-3099

Tohoku University Technology: Layered nanosheet: T20-3099

High-quality layered MoS2 and Layered graphite at a lower cost than conventional technologies

MoS2 is attracting attention as the material for next-generation nanodevices with low power consumption and new functionality. Current fabrication methods include intercalation, which is a method of inserting ions to widen the interlayer distance and exfoliate, and chemical vapor deposition (CVD), which is a method of depositing a film on the surface of a substrate by supplying a source gas containing thin film components, but the former is of low quality and the latter is expensive and less productive.   This invention relates to a method for producing novel layered nanosheets of high quality, such as low cost, low interlayer residue and high orientation, which solve the above problems. Examples of producing layered nanosheets are MoS2 and graphite, but other layered nanosheets can also be produced.

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