Bucky Tube Collection

Carbon nanotube. Computer artwork showing the hexagonal carbon structure of a nanotube, or buckytube

Nanotube technology, computer artwork
Nanotube technology. Computer artwork of a cylindrical fullerene molecule (carbon nanotube). The hexagonal carbon structure of the nanotube is shown here

Nanotube structure, artwork C016 / 8888
This image may not be used in educational posters Nanotube structure. Computer artwork of the structure of a cylindrical nanotube

Nanotube structure, artwork C016 / 8889
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8886
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8887
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8890
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8885
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8891
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8883
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8884
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8533
Nanotube structure. Computer artwork showing a cylindrical nanotube being formed from a sheet of graphene, a single layer of graphite

Nanotube structure, artwork C016 / 8532
Nanotube structure. Computer artwork showing a cylindrical nanotube being formed from a sheet of graphene, a single layer of graphite

Nanotube structure, artwork C016 / 8530
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8526
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8531
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8528
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8529
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8524
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8523
Nanotube structure. Computer artwork of the structure of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8522
This image may not be used in educational posters Nanotube structure. Computer artwork of the interior of a cylindrical nanotube

Nanotube structure, artwork C016 / 8521
Nanotube structure. Computer artwork of the interior of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8519
Nanotube structure. Computer artwork of the interior of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork C016 / 8520
Nanotube structure. Computer artwork of the interior of a cylindrical nanotube. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Carbon nanotube, artwork C016 / 8270
Carbon nanotube. Computer artwork of the inside of a carbon nanotube, also known as a buckytube, showing the hexagonal carbon structure

Carbon nanotube, artwork C016 / 8269
Carbon nanotube. Computer artwork of the inside of a carbon nanotube, also known as a buckytube, showing the hexagonal carbon structure

Carbon nanotube, artwork C016 / 8271
Carbon nanotube. Computer artwork of a carbon nanotube, also known as a buckytube, showing the hexagonal carbon structure. Atoms are represented as spheres and the bonds between them by rods

Carbon nanotubes in POM matrix, SEM C016 / 8042
Carbon nanotubes. Coloured scanning electron micrograph (SEM) of carbon nanotubes in a POM matrix. Carbon nanotubes are a type of fullerene, a structural type (allotrope) of carbon

Carbon nanotube and buckyball, artwork
Carbon nanotube and buckyball. Computer artwork showing the hexagonal carbon structures of a buckyball (yellow) inside a carbon nanotube, or buckytube (grey)

DNA nanotechnology, computer artwork
DNA nanotechnology. Conceptual computer artwork of DNA nanotechnology, showing carbon nanotubes (allotropes of carbon) surrounding a molecule of DNA (deoxyribonucleic acid)

Nanotube, artwork. Nanotubes are a type of fullerene molecule, a structural form (allotrope) of carbon whose atoms are arranged into interlinking hexagonal and pentagonal rings

Carbon nanotube, artwork
Carbon nanotube. Computer artwork showing the hexagonal carbon structure of a nanotube, or buckytube

Buckytube bomb, conceptual artwork
Buckytube bomb, conceptual computer artwork. This image of a stick of dynamite inside a buckytube could represent the use of nanotechnology in warfare

Capped nanotube, molecular model
Capped carbon nanotube, molecular model. It is called capped because the ends of the tubes have been rounded off to form an enclosed structure

Multi-walled carbon nanotubes, TEM
Multi-walled carbon nanotubes (MWNTs), coloured transmission electron micrograph (TEM). MWNTs are cylindrical fullerene molecules (nanotubes) with multiple outer layers

Multi-walled carbon nanotube, TEM
Multi-walled carbon nanotube (MWNT), coloured transmission electron micrograph (TEM). MWNTs are cylindrical fullerene molecules (nanotubes) with multiple outer layers

Carbon nanotubes. Computer artwork of carbon nanotubes, also known as buckytubes, showing the hexagonal carbon structure. These are a type of fullerene, a structural type (allotrope) of carbon

Nanotube structure, artwork
Nanotube structure. Computer artwork of the interior of a cylindrical nanotubeg. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Nanoring structure, artwork
Nanoring structure. Computer artwork of the interior of a cylindrical nanotube, bent to form a ring. This molecule is a type of fullerene, a structural type (allotrope) of carbon

Carbon nanotube, computer model
Carbon nanotube, molecular model. This is a macromolecule made entirely of carbon atoms. Most carbon nanotubes are linear and composed of hexagons of carbon

Buckytube. Molecular model of a tubular fullerene molecule. The blue spheres represent carbon atoms, the rods connecting them represent bonds between them

Fullerene molecules. Fullerenes are structural types (allotropes) of carbon. The three molecules at centre are buckminsterfullerenes (buckyballs)

Capped nanotube, computer artwork
Capped nanotube. Computer artwork of a capped carbon nanotube. It is called capped because the ends of the tubes have been rounded off to form an enclosed structure

DNA nanotechnology, artwork
DNA nanotechnology. Conceptual computer artwork of DNA nanotechnology, showing a carbon nanotube (transparent) and a molecule of DNA (deoxyribonucleic acid, centre)

Nanotube technology, artwork
Nanotube technology. Conceptual computer artwork of cylindrical fullerene molecules (carbon nanotubes). The carbon atoms are arranged in a structure consisting of interlinking hexagonal rings

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"Bucky Tube: Unleashing the Power of Carbon Nanotube Technology" Step into the fascinating world of carbon nanotubes with Bucky Tube, a groundbreaking innovation in nanotechnology. These tiny cylindrical structures, also known as carbon nanotubes, are revolutionizing various industries with their exceptional properties and limitless potential. In this captivating computer artwork, we witness the intricate beauty of a carbon nanotube. Its unique structure is meticulously depicted, showcasing its remarkable strength and flexibility. The mesmerizing pattern formed by these interconnected atoms leaves us in awe of nature's ingenuity. As we delve deeper into this virtual realm, another computer model unveils itself. This time, it showcases an array of carbon nanotubes intertwined to form a complex network. Such arrangements hold immense promise for applications ranging from electronics to materials science. The artistic representation continues with more stunning visuals depicting different variations of nanotube structures. Each artwork captures the essence of these microscopic wonders - their elegance and sophistication that lie within their minuscule dimensions. Artwork C016 / 8888 portrays a delicate arrangement where individual carbon nanotubes intertwine harmoniously like threads in an intricate tapestry. Meanwhile, Artwork C016 / 8889 presents us with a denser configuration that hints at enhanced conductivity and mechanical resilience. Moving forward through this digital gallery, Artwork C016 / 8886 reveals yet another breathtaking composition where multiple layers intersect gracefully – an embodiment of structural complexity achieved on such a minute scale. In contrast, Artwork C016 / 8887 highlights the simplicity found within single-walled carbon nanotubes while emphasizing their potential for advanced electronic devices. With each passing image—Artworks C016 / 8890 through C016 / 8891—the viewer becomes captivated by the sheer diversity exhibited by these nanostructures: zigzag patterns giving rise to semiconducting behavior; armchair formations offering superior electrical conductivity; and chiral arrangements displaying a blend of both properties.