Nanostructure Collection

High-contrast direct DNA image, TEM
High-contrast direct DNA image. Coloured transmission electron micrograph (TEM) of the first high-contrast direct image of a bundle (fibre) of strands of DNA (deoxyribonucleic acid)

Nano ring, artwork F008 / 3363
Nano ring, computer artwork

Nanostructures, artwork F008 / 3365
Nanostructures, computer artwork

Differential nanogear, artwork F008 / 3373
Differential nanogear, computer artwork

Nanotechnology, conceptual artwork F008 / 3364
Nanotechnology, conceptual computer artwork

DNA bundle on silicon nanopillars, SEM
DNA bundle on silicon nanopillars. Scanning electron micrograph (SEM) of a DNA (deoxyribonucleic acid) bundle and silicon nanopillars used to obtain the first high-contrast direct images of DNA

Gallium nitride nanowires, SEM
Gallium nitride nanowires, coloured scanning electron micrograph (SEM). Nanowires, seen here grown in square plots, are artificially grown crystal filaments that measure only a few nanometres

Silicon nanowire device, held by tweezers. This device is coated with billions of tiny nanowires, each measuring a few nanometres (billionths of a metre) in diameter

Zinc oxide nanowires, SEM
Zinc oxide nanowires, coloured scanning electron micrograph (SEM). Nanowires are artificially grown crystal filaments that measure only a few nanometres (billionths of a metre) in diameter

Thermoelectric silicon nanowire, artwork
Thermoelectric silicon nanowire. Computer artwork showing a silicon nanowire (centre) bridging two heating pads (top and bottom)

Nanowire solar cell. This solar cell is coated with billions of tiny nanowires, each measuring 60 nanometres (billionths of a metre) in diameter and 20 micrometres (thousandths of a metre) in length

Nanowire tweezers, computer artwork
Nanowire tweezers. Computer artwork showing nanowires (grey cylinders) surrounded by an electric field (red and yellow). The electric field, known as an optoelectronic tweezer

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"Unlocking the Marvels of Nanostructures: Exploring the Intricate World of Nanotechnology" Delving into the realm of nanostructures, we encounter a mesmerizing nano ring (artwork F008 / 3363) that holds secrets waiting to be unraveled. Prepare to be captivated by the enchanting beauty of nanostructures as showcased in artwork F008 / 3365, where science and art intertwine seamlessly. Witness the intricate mechanics at play with a glimpse into the fascinating world of differential nanogear (artwork F008 / 3373), where tiny cogs pave the way for groundbreaking advancements. Conceptual artwork F008 / 3364 takes us on an imaginative journey through nanotechnology's vast possibilities, offering a glimpse into its potential to revolutionize various fields. Through high-contrast direct DNA images captured using TEM technology, we gain unprecedented insights into nature's building blocks – marvel at their complexity and elegance. Behold. The magnificence lies within these high-resolution TEM images showcasing DNA bundles gracefully resting upon silicon nanopillars; witness this captivating fusion between biology and engineering. As if frozen in time, SEM captures reveal DNA bundles delicately perched atop silicon nanopillars - an extraordinary sight that merges two worlds harmoniously. Dive deep into this microscopic wonderland as SEM imagery showcases DNA bundle formations on silicon nanopillars - unlocking new realms for scientific exploration. With each image captured by TEM technology, our understanding expands further as we uncover hidden intricacies within these high-contrast direct DNA snapshots - paving pathways for breakthrough discoveries. Embark on a visual odyssey through nanoscale wonders with SEM's stunning portrayal of DNA bundles adorning silicon nanopillars - illustrating how nature effortlessly integrates itself with human ingenuity.