Nanotechnology Collection (page 8)

Nanosub. Computer artwork of a nanotechnology submarine. Nanotechnology is the branch of engineering concerned with constructing devices at the molecular level, specifying the placement of each atom

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

Nanorobot fly on circuit board
Nanorobot fly. Computer illustration of a nanorobot fly resting on circuit board cubes. This tiny flying machine could be used for industrial or military espionage

Computer artwork of a nanorobot fly on a keyboard

Nano submarine in vessel
Nano submarine in a blood vessel, conceptual computer artwork. Future uses of nanotechnology (machines the size of cells and molecules)

Nanorobot attacking tumour, computer artwork. Conceptual image representing the future use of nanotechnology (machines the size of cells and molecules)

Smart dust nanotechnology
Nanotechnology smart dust. Computer artwork of sycamore-leaf-like nanomachines being dropped from a flying machine (upper left), demonstrating the concept of Smart Dust

Smart dust. Computer artwork of particles of smart dust (red) searching for cancer cells in the human body. These microscopic particles consist of silicone that has been chemically modified to target

Nanorobot army, computer artwork. Nanorobots is a term used to describe future microscopic robots that could have a wide range of uses, from medical to industrial to military

Nanorobot city, computer artwork. Nanorobots is a term used to describe future microscopic robots that could have a wide range of uses

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

Ant on pressure sensor, SEM
Microscopic pressure sensor. Coloured scanning electron micrograph (SEM) of an ant on a tiny pressure sensor. The circular area at the centre of the sensor rests on a membrane

Miniature engine, SEM
Micro-engine. Coloured scanning electron micro- graph (SEM) of combustion chambers in the worlds smallest combustion engine

Microcombs for X-ray telescopes
Microcombs. Researcher holding several microcombs designed to hold the foil " mirrors" in orbiting X- ray telescopes

Nanotechnology research
Nanotechnology. Researcher with a scanning beam interference lithography (SBIL) machine. This is used to create gratings and grids with structures on the scale of a few nanometres

Cam wheel, SEM
Cam wheel. Coloured scanning electron micrograph (SEM) of a microscopic cam wheel. This mechanical device is used to transform circular motion into irregular or intermittent motion

Scanning tunnelling microscope head. Physicist Ali Yazdani looking at the head of a variable temperature scanning tunnelling microscope (STM)

Atomic force microscope. Television screen (left) displaying a specimen being analysed by an atomic force microscope (AFM, right)

Ultra-high vacuum nanoprobe. Central sample area for a UHV (ultra-high vacuum) nanoprobe machine. This machine uses four scanning tunnelling microscopes to ensure the precision placement of

Surgical snake robot, conceptual artwork
Surgical snake robot, conceptual computer artwork

Nano particle, artwork
Nano particles, abstract computer artwork

Cell culture research, centrifuge
MODEL RELEASED. Cell culture research. Researcher placing a cell culture sample in a centrifuge. This will be used to spin the sample and separate out the liquid and solid components

Protein research device, SEM
Lab on a chip. Coloured scanning electron micrograph (SEM) of a section through a " lab on a chip", a microfluidic device used for analysing proteins

Cell culture research, electronics
Cell culture research. Pipette being used to add cultured cells (pink liquid) to a microchip that is connected to an electrical circuit with crocodile clips

Cell culture research, fume cupboard
MODEL RELEASED. Cell culture research. Researcher using a pipette to handle a cell culture (pink). The pink liquid is a nutrient medium in which cells can be grown

Nanotechnology
Abstract conceptual computer artwork depicting nanotechnology, molecules, biotechnology research and bioengineering

Nano turbine
Conceptual 3D image of a micromechanical turbine. This turbine could be used to drive a drill, small enough to be fitted to the end of a medical catheter

Nanodrones, artwork
Nanodrones. Computer artwork of nanobots used for surveillance

Buckyball, C60 Buckminsterfullerene
Buckminsterfullerene molecule. Molecular model of a fullerene molecule, a structurally distinct form (allotrope) of carbon

Smart dust, conceptual artwork
Smart dust, conceptual computer artwork. Swarm of tiny electromechanical devices that are wirelessly networked

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Nanotechnology, the groundbreaking field of science that operates at the atomic and molecular level, continues to astound us with its limitless potential. Imagine a swarm of nanorobots working tirelessly inside our bodies, repairing damaged cells and combating diseases. This futuristic concept comes alive through mesmerizing artwork depicting these tiny marvels in action. One such masterpiece showcases nanotube technology, where intricate structures resembling microscopic tubes hold immense promise for various applications. Another captivating artwork portrays nanorobots delicately maneuvering on a pinhead, highlighting their astonishing precision and agility. Graphene steals the spotlight as an extraordinary material with unparalleled strength and conductivity. An awe-inspiring depiction of a graphene sheet captivates viewers, showcasing its remarkable properties that revolutionize industries ranging from electronics to energy storage. The integration of carbon nanotubes into this realm further expands possibilities. Conceptual artwork envisions how these incredible structures could shape future technologies by enhancing materials' performance or enabling advanced electronic devices. Intriguingly, nanotechnology even offers hope for DNA repair using tiny yet powerful nanobots designed specifically for this purpose. Imaginative illustrations depict these minuscule machines precisely targeting damaged genetic material within our cells—a testament to human ingenuity pushing boundaries beyond imagination. But it doesn't stop there; battling cancer becomes more promising when we witness a brave little nanorobot attacking malignant cells in another captivating piece of art. The potential breakthroughs in targeted therapies bring renewed optimism in the fight against this devastating disease. And finally, self-replicating nanobots take center stage through thought-provoking artwork that explores their ability to reproduce autonomously—opening doors to unimaginable advancements across numerous fields. As we delve deeper into the world of nanotechnology, we are left awestruck by its transformative power and boundless opportunities it presents for humanity's progress.