Collections

DFT calculations of materials

0 comments 14 reposts

Profile picture of Dongsheng Wen

Dongsheng Wen onto A2M

An introduction to the emerging area of nanotechnology will be studied. The primary focus will be on the technologies of nanotechnology, with specific emphasis on electronics and electrical measurements. Instruments and techniques used in nanotechnology will be described and explored which include but are not limited to scanning probe microscopy, surface analysis and electron microscopy. Nanomaterials such as carbon nanotubes and nanoparticles will be covered. Applications of nanotechnologies in various disciplines will be introduced along with social implications of this exciting new area. This course also incorporates laboratory exercises to provide hands on design and analysis.

0 comments 54 reposts

Profile picture of Mohsen Saeidi

Mohsen Saeidi onto Characterization

Practical introduction to the operation of transmission electron microscopes. Microscope design and function; imaging and diffraction modes and image content; instrument operation. Required of all students who use the TEM in their research.

0 comments 61 reposts

Profile picture of Mohsen Saeidi

Mohsen Saeidi onto Characterization

This tool computes molecular electronic spectra.

0 comments 17 reposts

Profile picture of Viktorija Shautsova

Viktorija Shautsova onto simulation tool

Simulation tool for organic solar cells

0 comments 10 reposts

Profile picture of Viktorija Shautsova

Viktorija Shautsova onto simulation tool

Simulate realistic 1, 2, or 3-dimension nano-optical systems using the FDTD method.

0 comments 24 reposts

Profile picture of Viktorija Shautsova

Viktorija Shautsova onto simulation tool

This talk covers the big technological changes in the 20th and 21st century that were correctly predicted by Gordon Moore in 1965. Moore\‘s Law states that the number of transistors on a silicon chip doubles every technology generation. In 1960s terms that meant every 12 months and currently this means every 18-24 months. This talk explores the challenges of doubling transistors on chips and some new technologies examined by researchers.

0 comments 5 reposts

Profile picture of Irina Bukhteeva

Irina Bukhteeva onto nano8102

Jupyter Notebook

0 comments 12 reposts

Profile picture of Liang Shi

Liang Shi onto ME 58100

Welcome to Nanotechnology 101, a series of lectures designed to provide an undergraduate-level introduction to nanotechnology. In contrast, the Nanotechnology 501 series offers lectures for the graduate-level and professional audiences.

0 comments 27 reposts

Profile picture of Amira Geneva Gee

Amira Geneva Gee onto NANO UNCC

This talk covers the big technological changes in the 20th and 21st century that were correctly predicted by Gordon Moore in 1965. Moore\‘s Law states that the number of transistors on a silicon chip doubles every technology generation. In 1960s terms that meant every 12 months and currently this means every 18-24 months. This talk explores the challenges of doubling transistors on chips and some new technologies examined by researchers.

0 comments 5 reposts

Profile picture of Amira Geneva Gee

Amira Geneva Gee onto NANO UNCC

These notebooks are examples and homework solutions for ME 581.

0 comments 9 reposts

Profile picture of Liang Shi

Liang Shi onto ME 58100

These notebooks are examples and homework solutions for ME 581.

0 comments 9 reposts

Profile picture of Joseph Peoples

Joseph Peoples onto ME581

norton.com/setup - Have you purchased a Norton security product recently? Find out how to download, install, setup Norton antivirus on your device. To activate Norton setup using the 25 digit Norton product key, go to the website www norton com/setup.

0 comments 5 reposts

Profile picture of Lucia Mandela

Lucia Mandela onto IT Support

Size and Scale collection

0 comments 2 reposts

Profile picture of kim Grady

kim Grady onto Size and Scale Collection

Size and scale collection

0 comments 2 reposts

Profile picture of kim Grady

kim Grady onto Size and Scale Collection

Big Idea related to Size and Scale

0 comments 2 reposts

Profile picture of kim Grady

kim Grady onto Size and Scale Collection

Collection of NanoHub resources related to one of the Nano-Link DIY modules.

0 comments 1 reposts

Profile picture of kim Grady

kim Grady onto DIY Modules Related

 in order to increase my knowledge 

0 comments 19 reposts

Profile picture of Fahad Mohammed Alblowi

Fahad Mohammed Alblowi onto PhD

This nanotechnology course explains the fundamentals of nanoelectronics and mesoscopic physics.

Second in a two part series, this nanotechnology course provides an introduction to more advanced…

0 comments 27 reposts

Profile picture of Hemanadhan Myneni

Hemanadhan Myneni onto Nanoelectronics

Developing Students’ Thinking by Writing

From Stanford's Tomorrow's Professor's postings - a Reference from the talk on "Writing to Learn in Introductory Materials Science and Engineering."

0 comments 0 reposts

Profile picture of Tanya Faltens

Tanya Faltens onto NAMES 2018

This is a combination hands-on and simulation activity that will teach middle school students about the function and importance of modeling and simulations in science and engineering while learning about three important carbon nanostructures: graphene, bucky balls, and carbon nanotubes. The activity uses the Crystal Viewer simulation tool in nanoHUB, and has been used with many different ages of student at NanoDays at the Birck Nanotechnology Center at Purdue.

0 comments 5 reposts

Profile picture of Tanya Faltens

Tanya Faltens onto NAMES 2018

This resource will guide instructors and independent learners through the process of simulating the reflections off of a thin film using the S4: Stanford Stratified Structure Solver simulation tool.  Examples of a freely standing thin film (a soap bubble) and a thin film of silicon dioxide on a silicon wafer are presented.  Some reference to thin film interference and the colors average humans perceive when viewing different energies (or wavelengths) of light are...

0 comments 2 reposts

Profile picture of Tanya Faltens

Tanya Faltens onto NAMES 2018

This teaching resource is designed for instructors who would like to introduce exploration through simulation into their lessons on silicon oxidation.  Step-by-step instructions are provided for running the process lab oxidation simulation, and guiding questions are provided that should help students discover important trends in the oxidation rate when different process parameters are changed.

0 comments 1 reposts

Profile picture of Tanya Faltens

Tanya Faltens onto NAMES 2018

This document is an updated (Fall 2015) sophomore materials science and engineering tensile testing laboratory handout that introduces students to the atomic-level processes that are responsible for plastic deformation. By performing standard tensile tests on a ductile metal in conjunction with molecular dynamics (MD) simulations, the goal is to help students understand the relationship between macroscopic plastic behavior and the underlying atomic-level mechanisms that involve dislocation…

0 comments 2 reposts

Profile picture of Tanya Faltens

Tanya Faltens onto NAMES 2018