SEM

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Scientific Image - SEM Image of Human Hair

Scanning electron microscope image of a human hair (black and white). • SIZE: Scale bar representes 20 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)

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Scientific Image - SEM Image of Lotus Leaf

Scanning electron microscope image of the surface of a lotus leaf. • SIZE: Scale bar representes 100 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)

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Scientific Image - SEM Image of Lotus Leaf

Scanning electron microscope image of the surface of a lotus leaf. • SIZE: Scale bar representes 200 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)

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Scientific Image - SEM Image of Synthetic Tape

Scanning electron microscope image of synthetic tape. • SIZE: Scale bar representes 100 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)

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Scientific Image - SEM Image of Synthetic Tape

Scanning electron microscope image of synthetic tape. • SIZE: Scale bar representes 300 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)

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Exploring Tools - Transmission Electron Microscopes

"Exploring Tools - Transmission Electron Microscopes" is a hands-on activity in which visitors use a model of a transmission electron microscope to image an object by looking at its shadow. They learn that scientists use special tools and equipment to work on the nanoscale.

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Scientific Image - Multiwalled Carbon Nanotube Yarn

This scanning electron microscope image shows nanotube yarn fibers drawn from a "nanotube forest." Nanometer and micron-sized yarn or fibers drawn from multiwalled carbon nanotubes can have tensile strengths comparable to or exceeding those of spider silk. Replacing metal wires in electronic textiles with these nanotube yarns could lead to important new functionalities, such as the ability to actuate (as an artificial muscle) and to store energy (as a fiber super-capacitor or battery).

• SIZE: The yarn's diameter is about 1 µm. The nanotubes from which it is being drawn are each...

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Scientific Image - Nanowire Resting on a Human Hair

This scanning electron microscope image shows the relative thickness of typical nanowire in comparison with a strand of human hair.

• SIZE: The hair is about 100 µm in diameter; the nanowire's diameter is about 100 nm.

• IMAGING TOOL: Scanning electron microscope

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Scientific Image - Human Hair

This is a scanning electron microscope image of a single strand of human hair.

• SIZE: The diameter of a human hair ranges from about 50 µm to 100 µm.

• IMAGING TOOL: Scanning electron microscope

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