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AMC 2015 provided a critical, comparative and condensed overview of major analytical techniques for materials characterization with emphasis on practical applications. Lectures covered basic and advanced topics geared towards both novice and experienced scientists.

Sessions focused on problem solving strategies, resolution requirements and potential artifacts in data collection and analysis. Several walkthrough examples from various fields were…

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John Gu onto Characterization

This workshop provides a critical, comparative and condensed overview of mainstream analytical techniques for materials characterization with emphasis on practical applications. The workshop will cover the following techniques:

Atomic force microscopy (AFM) X-ray diffraction, reflectivity and fluorescence (XRD, XRR, XRF) including high-temperature analysis Scanning and transmission electron microscopy (SEM, TEM, STEM); focused ion beam (FIB) Auger electron spectroscopy (AES), and x-ray …

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John Gu onto Characterization

TEM

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John Gu onto Characterization

CNT

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John Gu onto Experiment

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Webelements.com

Data about all of the elements in the Periodic Table

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Non-Markovian calculation of absorption spectra, 2d echo-spectra, coherences and polulation dynamics for light-harvesting complexes.

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Sijia Dong onto bio

A computational method for rapid prediction of amyloid beta-fibril structures

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Sijia Dong onto bio

Nickel MD simulations over a temperature Range.

YouTube video playlist showing a series of MD simulations of a cube of Ni.

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Tanya Faltens onto Structure visualizations

This lecture will describe how the traditional, non-reactive FF-concept can be extended for application including reactive events by introducing bond order/bond distance concepts. Furthermore, it will address how these reactive force fields can be trained against QM-data, thus greatly enhancing their reliability and transferability.

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家林 温 onto ReaxFF

ReaxFF code for simulating atomic systems

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Profile picture of 家林 温

家林 温 onto ReaxFF

Simulates tensile deformation of a copper nanowire

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Marcio Aurelio Soares Santos onto MIT

DFT calculation 

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zheng yongping onto DFT

Scattering solutions for a core-shell spherical particle on a planar lamellar substrate

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Edin Chen onto Plasmonic

The talk is a brief overview of the program that discusses the rationale, status, and plans for NEEDS.

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Abdelaali Fargi onto Pro Dev Seminar

This learning module introduces users to the Carbon-Nano Bands simulation tool, which simulates the bandstructure of Carbon Nanotubes (CNTs) and Nanoribbons (CNRs). To gives users a strong background in bandstructure, the module starts with sections that introduce bandstructure basics. To this end, a section is also dedicated to the bandstructure of bulk graphene, from which CNTs and CNRs are conceptually derived. Sections detailing the derivation and properties of the bandstructures of CNTs and CNRs are also provided. After the background discussions, a lecture introduces the Carbon-Nano Bands simulator, and examples and exercises that use this tool are worked out step-by-step. Upon completion of this learning module, users will understand the fundamentals of bandstructure as they relate to nanoscale graphene-based structures, as well as how to use the Carbon-Nano Bands simulation tool to gain insight into the electronic properties of CNTs and CNRs.

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manoj kaja sai onto qaz

The non-equilibrium Greens function (NEGF) formalism provides a powerful conceptual and computational framework for treating quantum transport in nanodevices. It goes beyond the Landauer approach for ballistic, non-interacting electronics to include inelastic scattering and strong correlation …

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A collection of presentations which answer an aspect of the question \“What is nano?\”

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sangar masilamani onto Introduction

Lecture Series 3

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Samik Mukherjee onto MD Simulations

Lecture Series 2

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Samik Mukherjee onto MD Simulations

Lecture Series1

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Samik Mukherjee onto MD Simulations

Numerical Nanophotonics Course

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Samik Mukherjee onto MyLearning

Impurity and optical properties

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Samik Mukherjee onto MyLearning

A FREE five week course exploring the next generation of optical and opto-electronic systems.

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Rummana Rahman onto Nanophotonics-Unread

Phase Change Memory - wikipedia

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Tanya Faltens onto PCM