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06 Aug 2006 | | Contributor(s):: Margarita Shalaev
DNA is a relatively inexpensive and ubiquitous material that can be used as a scaffold for constructing nanowires. Our research focuses on the manufacturing of DNA-templated, magnetic nanowires. This is accomplished by synthesizing positively-charged metal nanoparticles that self-assemble along...
Dynamic Failure of Polymer-Bonded Explosives under Periodic Excitation
27 Jul 2017 | | Contributor(s):: Rachel Katherine Kohler, Camilo Alberto Duarte, Marisol Koslowski
Accidental mishandling of explosive materials leads to thousands of injuries in the US every year. Understanding the mechanisms behind the detonation process is crucial to prevent such accidents. In polymer-bonded explosives (PBX), high-frequency mechanical excitation generates thermal energy...
Efficient Exploration of Quantified Uncertainty in Granular Crystals
16 Mar 2016 | | Contributor(s):: Juan Camilo Lopez
This work presents a way of quantifying uncertainty in granular crystals in a computationally efficient way. To accomplish this, a low dimensional response surface is approximated through the method of active subspaces. Within this framework, special structure within the inputs is exploited to...
Electrodeposition of Palladium as an Ohmic Contact for Single-Walled Carbon Nanotubes
03 Aug 2006 | | Contributor(s):: Brent Penque, David Janes
Carbon nanotubes are being researched extensively for their unique conductive properties. Controlled growth of vertical single-walled carbon nanotubes, however, has not yet been possible. This presentation reports a way to synthesize vertical single-walled carbon nanotubes that can be used for...
Electronic and Thermoelectric Characterization of Materials from Ab Initio Calculations
14 Aug 2017 | | Contributor(s):: Gustavo Javier, David M Guzman, Austin Jacob Zadoks, Alejandro Strachan
We present the Optimized Workflow for Electronic and Thermoelectric Properties (OWETP) python notebook, which uses Density Functional Theory (DFT) as implemented in the Quantum Espresso code for electronic properties of materials. The OWETP python notebook also enables connecting to the...
Enhanced Pool Boiling Using Carbon Nanotube Arrays
21 Apr 2004 |
2003 SURI Conference Proceeding
Enhancing Web-Based Three-Dimensional Visualization of Scientific Data
21 Apr 2004 | | Contributor(s):: Kwame Osei - Wusu
2003 SURI Conference Proceedings
Haptic Interfaces to Scanning Probe Microscopy
21 Apr 2004 | | Contributor(s):: Daniel Wilhelm
How to Seriously Read a Scientific Paper
21 Mar 2016 |
Posted by Tanya Faltens
Infrared Spectroscopy of Self-Assembled Monolayers
21 Apr 2004 | | Contributor(s):: Mac Inerowicz
Introduction to Self-Assembled Monolayers and Biosensors
01 Aug 2007 | | Contributor(s):: Michael Toole
Recent research concerning self-assembled monolayers (SAMs) focuses on tasks from fabrication of microelectronics to creating biosensors. This presentation will address the fundamental principles of self-assembled monolayers, formation and analysis of self-assembled monolayers, the basics of...
Investigation of the Electrical Characteristics of Triple-Gate FinFETs and Silicon-Nanowire FETs
08 Aug 2006 | | Contributor(s):: Monica Taba, Gerhard Klimeck
Electrical characteristics of various Fin field-effect transistors (FinFETs) and silicon-nanowires were analyzed and compared using a modified three-dimensional self-consistent quantum-mechanical simulator in order to investigate device performance. FinFETs have been proposed to fulfill the...
Memory : An Animated Approach to Education and Outreach
15 Aug 2004 | | Contributor(s):: Varun Sinha
Nanoscale science and technology has great potential for changing our lives. Despite the far reaching implications, it remains an esoteric concept riddled with fear, uncertainty and doubt.
Microstructure Evolution During Compaction of Powder Blends
27 Jul 2017 | | Contributor(s):: Ayush Giri
Powder Compaction is a manufacturing technology which is used to mold granular particles to solid materials. Powder compaction is widely used by pharmaceutical companies to manufacture tablets with desired properties. It is imperative to understand the mechanics underneath the constituent...
Modeling High-Efficiency Rear Junction Photovoltaic Devices
28 Jul 2017 | | Contributor(s):: Valerie C Vidal, Allison Perna, Peter Bermel
Solar cells are a renewable energy technology that has begun to supply energy in many regions of the world at a utility scale. Nonetheless, further improvements in solar technology are still needed to help reduce costs and increase adoption. Many researchers have been particularly interested in...
Modelling of Phase Transforming Cellular Material (PXCM)
27 Jul 2017 | | Contributor(s):: Chidubem Nuela Enebechi, Yunlan Zhang, David Restrepo Arango, Pablo Daniel Zavattieri, Nilesh Mankame
Phase transforming cellular materials (PXCMs) are a new class of materials that can go through large deformation and return to their original configuration. Currently, there are reliable cellular materials that can resist large deformation, for example, honey comb; however, when these materials...
Nanomechanics Simulation Tool: Dislocations Make or Break Materials
16 Mar 2016 | | Contributor(s):: Michael N Sakano
The goal of computational material science is to improve existing materials and design new ones through mathematical calculations. In particular, molecular dynamic simulations can allow for visualization of dislocations in a material, along with its resulting behavior when under stress. For...
Nanoscale Patterning of CdS/CdTe Solar Cells
21 Apr 2004 | | Contributor(s):: Cesar Lopez
Nanoscale Visualization: Transfer Function Exploration
2003 SURI Coference Proceedings
Jan 02 2015
NCN (nanoHUB) Summer Undergraduate Research Fellowship Applications