arbon nanotubes are seamless nanoscale tubular structures formed by single or multiple layers of graphene rolled up along a central axis at a certain helical angle.Single-Walled Carbon Nanotubes: Fewer amorphous carbon, metal, and other impurities and defects, high electrical conductivity.

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MXene is a general term for complex atomic layer compounds composed of early transition metals (such as titanium, vanadium) and light elements (carbon or nitrogen), with a layered structure similar to graphene. The surface of the sheets has various polar functional groups, which gives them high dispersibility in hydrophilic materials.

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Conductive paste is manufactured by dispersing single-walled carbon nanotubes prepared by the eDIPS method. Through unique dispersion technology, dispersion in water, NMP, and ethanol is achieved while maintaining a high aspect ratio.

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MXene is a general term for complex atomic layer compounds composed of early transition metals (such as titanium, vanadium) and light elements (carbon or nitrogen), with a layered structure similar to graphene.

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Graphene is an allotrope of carbon, where carbon atoms are sp² hybridized to form a single-layer hexagonal honeycomb lattice.

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Overview: Bi₂S₃ is used to replace Germanium (Ge) to form a new type of solid electrolyte Li₁₀BiₓP₂S₁₂₋ₓ. The traditional LGPS solid electrolyte (e.g., Li₁₀GeP₂S₁₂) has excellent ion conductivity, but the high cost and scarcity of Ge limit its large-scale application. By introducing urchin-like Bi₂S₃, it not only provides high capacity potential in terms of structure but also effectively buffers volume and thermal expansion problems during cycling.

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Single-walled carbon nanotubes (SWCNTs) are seamless, nanometre-scale tubes formed when one or several graphene sheets roll around a central axis at a defined helical angle. Thanks to exceptionally low levels of amorphous carbon, metal residues and structural defects, they deliver outstanding electrical performance.

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