Add to ORKGThis lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of semiconductor manufacturing. Students will learn how scientist "take advantage of diffusion to 'dope' or introduce atoms into a silicon wafer to change its conductive properties." The lesson simulates this phenomenon by diffusing ammonia into gelatin. A Teacher Preparation Guide, Student Guides, and Next Generation Science Standards applicable to the lesson are included
Nanoscience has become one of the main science fields in the world; its importance is reflected in b...
This lesson, presented by the National Nanotechnology Infrastructure Network, allows students a chan...
* Carrying fundamental research on nano communication networks * Educate and train the new generatio...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of sem...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of mat...
Introduces the theory and technology of integrated-circuit fabrication. Lectures and laboratory sess...
SIGLEAvailable from British Library Document Supply Centre- DSC:D177987 / BLDSC - British Library Do...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of che...
This demonstration, presented by the National Nanotechnology Infrastructure Network, exposes student...
As the era of Nanotechnology dawns, the traditional engineering education training becomes inadequat...
In this lab, presented by the National Nanotechnology Infrastructure Network, students will "ex...
Diffusion is a vital topic in solid-state physics and chemistry, physical metallurgy and materials s...
Review from Book News Inc.: Summary reports of 337 experiments provide information on the diffusion ...
Semiconductor devices continue to get ever smaller, which means that individual defects play an incr...
This experiment, presented by the National Nanotechnology Infrastructure Network, covers Shape Memor...
Nanoscience has become one of the main science fields in the world; its importance is reflected in b...
This lesson, presented by the National Nanotechnology Infrastructure Network, allows students a chan...
* Carrying fundamental research on nano communication networks * Educate and train the new generatio...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of sem...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of mat...
Introduces the theory and technology of integrated-circuit fabrication. Lectures and laboratory sess...
SIGLEAvailable from British Library Document Supply Centre- DSC:D177987 / BLDSC - British Library Do...
This lab, presented by the National Nanotechnology Infrastructure Network, covers the concept of che...
This demonstration, presented by the National Nanotechnology Infrastructure Network, exposes student...
As the era of Nanotechnology dawns, the traditional engineering education training becomes inadequat...
In this lab, presented by the National Nanotechnology Infrastructure Network, students will "ex...
Diffusion is a vital topic in solid-state physics and chemistry, physical metallurgy and materials s...
Review from Book News Inc.: Summary reports of 337 experiments provide information on the diffusion ...
Semiconductor devices continue to get ever smaller, which means that individual defects play an incr...
This experiment, presented by the National Nanotechnology Infrastructure Network, covers Shape Memor...
Nanoscience has become one of the main science fields in the world; its importance is reflected in b...
This lesson, presented by the National Nanotechnology Infrastructure Network, allows students a chan...
* Carrying fundamental research on nano communication networks * Educate and train the new generatio...