Nano Tube Collection

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

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

Twisted nanotube, molecular model
Twisted nanotube. Molecular model of a structure based on fullerenes, a structural form (allotrope) of carbon. Theoretically

Molecular transistor, AFM
Molecular transistor. Coloured atomic force micro- graph (AFM) of a transistor on the molecule scale. It consists of electrodes (yellow) created by electron beam lithography (EBL)

Molecular bearing sleeve. Computer model of part of the sleeve of a molecular bearing, an example of nanotechnology. Each of the coloured spheres represents a single atom

Molecular planetary gear, computer model. Each of the coloured spheres represents a single atom. A planetary gear consists of a train of interconnected gears

Molecular bearing

Nanotube drug delivery, artwork
Nanotube drug delivery. Computer artwork showing antioxidant molecules BHA (butylated hydroxyanisole) and BHT (butylated hydroxytoluene) moving along the inside of a nanotube

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

Atmosphere and airglow seen from Shuttle
View of the airglow of Earths atmosphere, seen at sunset from Space Shuttle Atlantis. The blue colour is caused by reflections of the suns light in the atmosphere

Nested fullerene molecules

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

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

Doping buckyball molecules, artwork
Doping buckyball molecules. Computer artwork showing a conveyor belt (top left to bottom right) of buckyball molecules being doped (combined) with other atoms (blue)

Smallest electrical wire
*** ABOVE CREDIT MUST BE PRINTED IN FULL *** Worlds smallest electrical wire. Coloured Atomic Force Micrograph (AFM) tapping-mode image of a carbon nanotube wire (blue) on platinum electrodes (yellow)

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"Unveiling the Marvels of Carbon Nanotubes: From Computer Models to Artistic Representations" Carbon nanotubes, also known as CNTs, have emerged as a fascinating field of study in the realm of nanotechnology. These cylindrical structures composed entirely of carbon atoms possess remarkable properties that make them highly sought after for various applications. One way scientists explore and understand these tiny wonders is through computer models. The intricate arrangement of carbon atoms within a nanotube can be visualized and analyzed using advanced computational techniques. Such simulations allow researchers to delve into the structural intricacies and predict their behavior under different conditions. But it doesn't stop there - artists too have been captivated by the beauty hidden within these nanostructures. In artwork C016 / 8888, we witness an artistic representation showcasing the mesmerizing elegance of a nanotube structure. Its delicate curves and symmetrical patterns evoke awe-inspiring wonder at nature's design on a microscopic scale. Moving forward, artwork C016 / 8889 presents another interpretation, highlighting how each unique configuration contributes to its extraordinary properties. As we gaze upon this creation, we are reminded that even at such minuscule dimensions, artistry finds its place. The series continues with artworks C016 / 8886 and C016 / 8887 – both capturing distinct aspects of nanotube structures' aesthetic allure. Their abstract forms invite us to ponder over the infinite possibilities encapsulated within these minute marvels. Artwork C016 / 8890 takes us on yet another journey into the world of carbon nanotubes; its composition revealing intricate details that might otherwise go unnoticed by our naked eye. This piece serves as a reminder that true beauty lies not only in what is readily visible but also in exploring beyond conventional boundaries. Intriguingly, artwork C016 / 8885 showcases how diverse arrangements give rise to varying characteristics among carbon nanotubes.