Search Materials
Sort materials by
Search Materials
Get more information on the MERLOT Editors' Choice Award in a new window.
Get more information on the MERLOT Classics Award in a new window.
Get more information on the JOLT Award in a new window.
Go to Search Page
Go to Partner Benefits
View material results for all categories
Search all MERLOT
Select to go to your profile
Select to go to your workspace
Select to go to your Dashboard Report
Select to go to your Content Builder
Select to log out
Search Terms
Enter username
Enter password
Please give at least one keyword of at least three characters for the search to work with. The more keywords you give, the better the search will work for you.
select OK to launch help window
cancel help

MERLOT II






        

Refine Your Search:

 
Materials 91 - 100 shown of 164 results

FETToy Tool Information

FETToy 2.0 is a set of Matlab scripts that calculate the ballistic I-V characteristics for a conventional MOSFETs, Nanowire... see more
Material Type: Simulation
Author: Mark Lundstrom, Supriyo Datta, Jing Guo, Anisur Rahman, Akira Matsudaira, Shaikh Ahmed
Date Added: Jan 05, 2006 Date Modified: Jan 05, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "FETToy Tool Information"
User Rating for material titled "FETToy Tool Information"
Member Comments for material titled "FETToy Tool Information"
Bookmark Collections for material titled "FETToy Tool Information"
Course ePortfolios for material titled "FETToy Tool Information"
Learning Exercises for material titled "FETToy Tool Information"
Accessibility Info for material titled "FETToy Tool Information"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Field Regulation of Single Molecule Conductivity by a Charged Atom

A new concept for a single molecule transistor is demonstrated. A single chargeable atom adjacent to a molecule shifts... see more
Material Type: Presentation
Author: Robert Wolkow
Date Added: Feb 16, 2006 Date Modified: Feb 16, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
User Rating for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
Member Comments for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
Bookmark Collections for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
Course ePortfolios for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
Learning Exercises for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
Accessibility Info for material titled "Field Regulation of Single Molecule Conductivity by a Charged Atom"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection

Microcantilever based biochemical sensing has shown tremendous promise for ultrasenstive detection in both liquid and ambient... see more
Material Type: Presentation
Author: Arvind Raman
Date Added: Feb 16, 2006 Date Modified: Feb 16, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
User Rating for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
Member Comments for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
Bookmark Collections for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
Course ePortfolios for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
Learning Exercises for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
Accessibility Info for material titled "Fine Tuning Microcantilever Vibrations for Ultrasensitive Analyte Mass Detection"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Fundamentals of Nanoelectronics

The development of "nanotechnology" has made it possible to engineer material and devices on a length scale as small as... see more
Material Type: Collection
Author: Supriyo Datta
Date Added: Jan 06, 2006 Date Modified: Jan 06, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Fundamentals of Nanoelectronics"
User Rating for material titled "Fundamentals of Nanoelectronics"
Member Comments for material titled "Fundamentals of Nanoelectronics"
Bookmark Collections for material titled "Fundamentals of Nanoelectronics"
Course ePortfolios for material titled "Fundamentals of Nanoelectronics"
Learning Exercises for material titled "Fundamentals of Nanoelectronics"
Accessibility Info for material titled "Fundamentals of Nanoelectronics"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)

This talk will introduce hierarchical physical models and efficient computational techniques for coupled analysis of... see more
Material Type: Presentation
Author: Narayan Aluru
Date Added: Feb 15, 2006 Date Modified: Feb 15, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
User Rating for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
Member Comments for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
Bookmark Collections for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
Course ePortfolios for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
Learning Exercises for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
Accessibility Info for material titled "Hierarchical Physical Models for Analysis of Electrostatic Nanoelectromechanical Systems (NEMS)"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

How Can Your Educational Modules Contain Interactive Online Simulation?

The Network for Computational Nanotechnology (NCN) is a multi-university, NSF-funded initiative with a mission to lead in... see more
Material Type: Presentation
Author: Gerhard Klimeck
Date Added: Feb 16, 2006 Date Modified: Feb 16, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
User Rating for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
Member Comments for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
Bookmark Collections for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
Course ePortfolios for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
Learning Exercises for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
Accessibility Info for material titled "How Can Your Educational Modules Contain Interactive Online Simulation?"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

How Semiconductors and Transistors Work

This annimation shows how semiconductor crystals work and how they are used to make transistor switches.
Material Type: Animation
Author: John Bean
Date Added: Jan 06, 2006 Date Modified: Jan 06, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "How Semiconductors and Transistors Work"
User Rating for material titled "How Semiconductors and Transistors Work"
Member Comments for material titled "How Semiconductors and Transistors Work"
Bookmark Collections for material titled "How Semiconductors and Transistors Work"
Course ePortfolios for material titled "How Semiconductors and Transistors Work"
Learning Exercises for material titled "How Semiconductors and Transistors Work"
Accessibility Info for material titled "How Semiconductors and Transistors Work"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Huckel-IV on the nanoHUB

No description given
Material Type: Presentation
Author: Magnus Paulsson, Ferdows Zahid, Supriyo Datta
Date Added: Feb 17, 2006 Date Modified: Feb 17, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Huckel-IV on the nanoHUB"
User Rating for material titled "Huckel-IV on the nanoHUB"
Member Comments for material titled "Huckel-IV on the nanoHUB"
Bookmark Collections for material titled "Huckel-IV on the nanoHUB"
Course ePortfolios for material titled "Huckel-IV on the nanoHUB"
Learning Exercises for material titled "Huckel-IV on the nanoHUB"
Accessibility Info for material titled "Huckel-IV on the nanoHUB"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Inelastic Effects in Molecular Conduction

Molecular electron transfer, as treated by the Marcus theory, strongly depends on nuclear motion as a way to achieve critical... see more
Material Type: Presentation
Author: Abraham Nitzan
Date Added: Feb 17, 2006 Date Modified: Feb 17, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Inelastic Effects in Molecular Conduction"
User Rating for material titled "Inelastic Effects in Molecular Conduction"
Member Comments for material titled "Inelastic Effects in Molecular Conduction"
Bookmark Collections for material titled "Inelastic Effects in Molecular Conduction"
Course ePortfolios for material titled "Inelastic Effects in Molecular Conduction"
Learning Exercises for material titled "Inelastic Effects in Molecular Conduction"
Accessibility Info for material titled "Inelastic Effects in Molecular Conduction"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)

Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters

This talk will discuss two relatively new topics in carbon nanotube research. The first is nanotubes for chemical and... see more
Material Type: Presentation
Author: Hongjie Dai
Date Added: Feb 16, 2006 Date Modified: Feb 16, 2006
Pick a Bookmark Collection or Course ePortfolio to put this material in or scroll to the bottom to create a new Bookmark Collection
Name the Bookmark Collection to represent the materials you will add
Describe the Bookmark Collection so other MERLOT users will know what it contains and if it has value for their work or teaching. Other users can copy your Bookmark Collection to their own profile and modify it to save time
Edit the information about the material in this {0}
Submitting Bookmarks...
Peer Review for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
User Rating for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
Member Comments for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
Bookmark Collections for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
Course ePortfolios for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
Learning Exercises for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
Accessibility Info for material titled "Interfacing Carbon Nanotubes with Biological Systems: From Biosensors to Cellular Transporters"
About this material:
Reviewed by members of Editorial board for inclusion in MERLOT.
Editor Review (not reviewed)
User Rating (not rated)
Discussion (none)
Bookmark Collections (none)
Course ePortfolios (none)
Learning Exercises (none)
Accessibility Info (none)
RSS

Results page 10 of 17
Left Arrow  Prev 5  6  7  8  9  10  11  12  13  14  Next Next Arrow
Jump to page