Support

Support Options

Submit a Support Ticket

 

Collections

quantum and thermal effect in naoscale device

0 comments 1 reposts

Profile picture of Gaurav Singh

Gaurav Singh onto FinFET

The goal of this short course is to provide an introduction to the theory and algorithms behind MD simulations, describe some of the most exciting recent developments in the field and exemplify with a few applications applications. The series also includes a tutorial on the nanoMATERIALS simulation tool, an online MD simulation tool available at the nanoHUB. This provides users with a hands-on experience with MD simulations and enables further exploration of some of the concepts described in the lectures.

0 comments 37 reposts

Predictive semiconductor device simulation faces a challenge these days. As devices are scaled to nanoscale lengths, the collision-dominated transport equations used in current device simulators can no longer be applied. On the other hand, the use of a better, more accurate Boltzmann Transport Equation (BTE) is hampered by the fact that it is a complicated integro-differential 6-dimensional kinetic equation and is extremely difficult to solve. Previous works on solving the BTE have used either …

0 comments 1 reposts

Profile picture of dhana sekaran

dhana sekaran onto PAPERS

https://nanohub.org/resources/15014#series

0 comments 6 reposts

ADEPT is a tool for PV simulations.

0 comments 13 reposts

Attendees participate in two weeks of lectures and hands-on training in engineering and physical science laboratory techniques by experts in the field. Topics include cancer nanotechnology, cell mechanics, molecular biology, micro fabrication, and NanoBio devices.

Featuring invited lecturers from:


California Institute of Technology Georgia Institute of Technology Harvard University Massachusetts Institute of Technology Northwestern University Stanford…

0 comments 1 reposts

GEMS 4 Summer School Topics:

Fundamentals of Cell and Molecular Biology Basics of Mechanics in connection with Biological Systems Mechanotransduction at a distance in a living cell Mechanics insights into the pathophysiology of human disease; Microfluidics approaches to studying human diseases Effects of mechanical stiffness and applied force on ligand-receptor binding kinetics at the cell-material interface Fundamentals of molecular dynamics and computational molecular …

0 comments 4 reposts

The purpose of this symposium is to bring together top scientists from India and the United States to present their latest work and to discuss future international scientific collaborative partnerships. This one and a half day symposium will also feature a special second half day mini-symposium and panel discussion, “Transforming Pharmaceutical Manufacturing in the 21st Century.”

0 comments 2 reposts

This is the 3rd in a series of annual workshops on Molecular Conduction. The prior workshops have been at Purdue University, W. Lafayette, IN (2003) and Nothwestern University, Evanston, IL (2004). The workshop has been an informal and open venue for discussing new results, key challenges, and unexplained phenomena.

0 comments 2 reposts

Explore ways universities can work together in Bio-NanoTechnology. Discover research opportunities in this emerging area. Network with professionals and researchers who share common interests. Hear the latest on current research topics

0 comments 2 reposts

Resources for Grade School Students Nanozone Nanozone, for kids ages 8-14, explores the basics of nanotechnology and nanoscience with games,videos and comics. Molecularium Project The Molecularium Project provides educational tools and games for kids to learn and have fun with the nanoparticle…

0 comments 1 reposts

AHard Day in the Life of a Soft Cell With every beat of the heart, inflation of the lung, or peristalsis of the gut, cell types of diverse function are subjected to substantial stretch. But what physical laws govern the abilities of the cytoskeleton to deform, contract, and remodel at the nanoscale? New data support the idea that the cytoskeleton is at once a crowded chemical space and a fragile soft material in which the effects of biochemistry, molecular crowding, and physical forces are …

0 comments 2 reposts

This series is organized by PhD students who are appointed as Trainees in the NIH/NCI Midwest Cancer Nanotechnology Training Center (M-CNTC) and in the NSF IGERT in Cellular and Molecular Mechanics and BioNanotechnology (CMMB IGERT). These traineeships are designed to train the next generation of leaders who will define the new frontiers of nanotechnology in cancer research and in cellular and molecular mechanics and bionanotechnology. The BioNanotechnology Seminar Series is also sponsored by …

0 comments 1 reposts

NCN Summer Undergraduate Research Fellowship

Paid research positions are available for summer 2015 at Purdue. Check out the group site and flier for more information. https://nanohub.org/groups/ncnsurf

0 comments 1 reposts

Drift-Diffusion Model

0 comments 3 reposts

Profile picture of Joonyong Choi

Joonyong Choi onto Drift_Diffusion Model

Drift-Diffusion Model

0 comments 3 reposts

Profile picture of Joonyong Choi

Joonyong Choi onto Drift_Diffusion Model

Drift-Diffusion Model

0 comments 2 reposts

Profile picture of Joonyong Choi

Joonyong Choi onto Drift_Diffusion Model

In this lecture, we describe the basics of what quantum dots are and how they can be applied to thin film photovoltaic technologies. In particular, we examine the unique properties of quantum dot materials and how these properties can be exploited by scientists and engineers to yield low-cost, light-weight solar modules capable of converting sunlight into electricity in a direct fashion.  Additionally, the basics of solar cell characterization and light absorption are detailed and related to the band gap of quantum dot materials.  Finally, the potential impact of solar technologies on the energy landscape of the United States is discussed.

0 comments 1 reposts

Profile picture of Tanya Faltens

Tanya Faltens onto Basic QDot Resources

Crystal Viewer 2.3.4

0 comments 0 reposts

Profile picture of nano HUB

nano HUB onto Outreach

These are step-by-step instructions for creating simulations of carbon nanostructures: – buckly ball – carbon nanotubes – graphene sheets

These instructions will allow teachers to run simulations that students can use along with, or instead of, building 3D models of structures.

0 comments 4 reposts

Profile picture of nano HUB

nano HUB onto Experiments with Simulations

These are step-by-step instructions for creating simulations of carbon nanostructures: – buckly ball – carbon nanotubes – graphene sheets

These instructions will allow teachers to run simulations that students can use along with, or instead of, building 3D models of structures.

0 comments 4 reposts

Profile picture of nano HUB

nano HUB onto Outreach

nanoHUB.org, a resource for nanoscience and nanotechnology, is supported by the National Science Foundation and other funding agencies. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.