Search Results

This is a framework for a school field trip of students aged 8 - 11 years. Students learn about nanoscale science and engineering through hands-on activities. The framework is intended to be delivered in a one hour session.

The NISE Network content map articulates the key ideas for our educational products, including programs, exhibits, and media experiences. It presents the content knowledge the network has identified as the most important for engaging the public in learning about nanoscale...

This is a stage presentation, designed for audiences of 11 and up, intended to give a broad overview and introduction to the subject of nanotechnology. The talk attempts to answer three basic questions about nanotech: How is It New, What...

Tiny Particles, Big Trouble explains why some nanoscale science and technology is done in the controlled environment of a clean room, what clean rooms are like, and how scientists help keep the clean room clean. During the program, visitors sniff...

"The Future of Computing" is a public presentation that examines trends in computing technology and predicts what the future of computing might hold for us. Visitors are introduced to the idea of smaller, nanoscale transistors as the key to faster,...

This poster features an illustration of a computer chip across ten orders of magnitude, from the computer chip to the atoms of which it is made. Using the conventions of visual perspective the image travels in one continuous "landscape" from...

This zoom video explores the inner-workings of a microchip. We start with a digital camera and transition to a scanning electron microscope. You'll see the tiny wires and the cris-crossing patterns of the microchip's circuits while learning a bit about...

This report is the formative evaluation for the "Computing the Future" presentation, a presentation concerned with both the history of computers and the ways in which nanotechnology is changing how computers are built and operated.

This activity is designed for high school students. In this experiment students use UV light to transfer a pattern (either a network of very small metal wires or self-drawn patterns) onto a surface-- a plastic board. The pattern is transferred...

In this classroom activity, students learn about organic light-emitting diodes (OLEDs). During the activity students make OLEDs, learn how OLEDs work, and discover what devices currently use OLEDs. Students also learn about spin coating since a spin coater is used...

"Exploring Products - Computer Hard Drives" is a hands on activity in which visitors use floating ring magnets to store data. They learn that computer hard drives are one of the most common applications of nanotechnology.

Ideas for incorporating current science, engineering, and technology content into holidays, seasons, annual events, and special events: from STEM-themed events like National Chemistry Week and Astronomy Day to holidays like Halloween and Valentine's Day!

In this cart demo, visitors learn about organic light-emitting diodes (OLEDs). Prior to presenting this demo, an OLED should be made in a chemistry lab. This OLED is shown to visitors during the cart demo. During the demo, visitors learn...

How can we mass-produce sophisticated products from materials too small to see? "From Lab to Fab" follows the story of two nanotech entrepreneurs navigating the rocky road from discovery to commercialization, with products ranging from tiny implantable body sensors to...

This interactive, Flash-based, website takes you on a virtual journey of discovery into the nanoworld.

This scanning electron micrograph shows a nanomechanical torsion oscillator used by computer engineers to measure extremely small amounts of torque. A nanomechanical torsion oscillator is used to measure extremely small torsion or twisting forces smaller than those created by the...

Australian animated videos on nanoscience scale (Part 1) and properties (Part 2). Underpinning an understanding of nanotechnology are two foundational aspects. First appreciating the nanoscale - how might we imagine one billionth of a meter? And second exploring novel nano...

An overview of nanotechnology developed by IEEE, IBM, and the New York Hall of Science. The website includes information on materials and applications, interviews with nanotechnology experts, and extensive online resources such as lesson plans, games, and images.

In the semiconductor industry scientists take advantage of diffusion to "dope" or introduce atoms into a silicon wafer to change its conductive properties. The lesson simulates the diffusion of a gas phase substance (ammonia) into a solid substrate (gelatin) and...

This scanning electron microscope image shows a zinc oxide (ZnO) nanowire photodetector device grown by photolithography. Nanowires geometry and structure make them both sensitive to light and efficient low-noise signaling devices, so they are ideally suited for applications involving light—such...

By: M. Gail Jones, Michael R. Falvo, Amy R. Taylor, and Bethany P. Broadwell NSTA Press Book, 2007 ISBN 978-1-93353-105-2 Member Price: $20.76, Nonmember Price: $25.95 Grade Level: Middle School, High School

Host Ira Flatow focuses on various nano related topics and issues. Podcasts are available to stream from the Scince Friday website. Available episodes cover recent developments and directions for research in the fields of nanomaterials and nanotechnology. Topics include, imaging...

The NanoHub.org site hosts a rapidly growing collection of simulation programs for nanoscale phenomena that run in the cloud and are accessible through a web browser. In addition to simulation devices, the NanoHUB education page provides online presentations, courses, learning...

NanoAventura (NanoAdventure) is a traveling interactive exhibition about nanoscience and nanotechnology. It was specially designed for children and teenagers (9-14). NanoAventura explores the nanoscopic world in a playful fashion through images, music and video simulations. NanoAventura is the first exhibition...

This lab is designed to help students understand one aspect of semiconductor manufacture: selective layering.