Nanomaterial tagged posts

New Nanomaterial maintains Conductivity in 3D: seamlessly bonding CNTs and Graphene

Schematic diagrams showing the synthesis and microstructures of a 3D graphene-RACNT fiber. (A) Aluminum wire. (B) Surface anodized aluminum wire (AAO wire). (C) 3D graphene-RACNT structure on the AAO wire. (D) Schematic representation of the pure 3D graphene-RACNT structure. (E to G) Top view SEM images of the 3D graphene-RACNT fiber at different magnifications. (I to K) SEM images of the cross-section of the 3D graphene-RACNT fiber. (H and L) AFM images of the 3D graphene-RACNT fiber. (M to P) SEM image (M) and corresponding EDX elemental mapping of (N) aluminum, (O) oxygen, and (P) carbon from the 3D graphene-RACNT fiber.

Schematic diagrams showing the synthesis and microstructures of a 3D graphene-RACNT fiber. (A) Aluminum wire. (B) Surface anodized aluminum wire (AAO wire). (C) 3D graphene-RACNT structure on the AAO wire. (D) Schematic representation of the pure 3D graphene-RACNT structure. (E to G) Top view SEM images of the 3D graphene-RACNT fiber at different magnifications. (I to K) SEM images of the cross-section of the 3D graphene-RACNT fiber. (H and L) AFM images of the 3D graphene-RACNT fiber. (M to P) SEM image (M) and corresponding EDX elemental mapping of (N) aluminum, (O) oxygen, and (P) carbon from the 3D graphene-RACNT fiber.

First 1-step process for making seamless carbon-based nanomaterials that possess superior thermal, electrical and mechanical properties in 3 dimensions...

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Synthesis of a New Nanomaterial: Self-assembly may work within the Body

http://static-content.springer.com/image/art%3A10.1007%2Fs00216-009-3203-0/MediaObjects/216_2009_3203_Figa_HTML.gif

Transmission electron microscopy images of Cu nanoparticles (left), Cu2O nanoparticles (middle), and CuS nanoplates (right)… The biocomposites consist of copper and cystine, with either copper nanoparticles (CNPs) or copper sulfate contributing the metallic component. Credit: http://link.springer.com/article/10.1007%2Fs00216-009-3203-0

1st time discovery of a new nanocomposite via copper and biological component self-assembly under physiological conditions could be used in targeted drug delivery for fighting diseases such as cancer.

The Louisiana Tech team has also discovered a way for this synthesis to be carried out in liquid form. This would allow for controlling the scale of the synthesis up or down, and to grow structures...

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