Atomistix – Innovative Software for Nanotechnology Development
Atomistix A/S is a leading provider of software solutions for development of nanotechnology. As the first company in the world, Atomistix has developed a system of integrated software modules based on quantum theory - the Atomistix Virtual NanoLab™.
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Carbon Nanotube Growth - Studying The Effect of Free Energy on Carbon Nanotube Growth Using Materia
The use of Accelrys' Materials Studio software has allowed researchers at ST Microelectronics to study how free energy is released when carbon dimers are added during the synthesis of carbon nanotubes.
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Carbon Nanotubes - Effect of Nitrogen Substitutional Impurities on Electronic Properties of Carbon N
Using CASTEP from Accelrys, researchers have been able to gain a better understanding of how doping with nitrogen impurities affects the semiconducting properties of carbon nanotubes. It has also allowed them to be able to optimize dopant concentrations.
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Carbon Nanotubes - Examining Bonding Differences and Conductivities of Carbon Nanotubes under Two Ty
Using DMol3 from Accelrys, researchers have been able to examine the bonding differences between two types of nanotube deformation: (1) bending, and (2) pushing with atomically sharp AFM tips. This work could lead to the design of ultrasenstive sensors and carbon nanotube based strain gauges.
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Field Emission Displays - Effect of Adsorbates on Field Emission from Carbon Nanotubes Evaluated Usi
Field emission based flat panel displys are perhaps the closest to realizing the first commercial application of carbon nanotubes. In these devices field emission current can be reduced by using adsorbates. Interactions between water and nanotube tips were investigated udsing Accelrys' DMol3 softwar
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Investigating Bonding Geometries of 1,3-Cyclohexadiene (1,3-Chd) on A Silicon(100) Surface Using CAS
Accelrys' CASTEP software has been used by SFI Nanoscience Laboratory to study possible bonding geometries of 1,3-cyclohexadiene on a silicon(100) surface. Results from the study will lead to the development of smaller, faster electronic devices.
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Nanotubes - Understanding the Properties of Carbon and Boron Nitride Nanotubes Using DMol3 and CASTE
CASTEP and DMol3, software packages from Accelrys have been used to study the properties (structural, mechanical, vibrational, and electronic) of carbon and boron-nitride nanotubes. Results will permit fine tuning of their properties and allow them to be commercialized to their full potential.
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Polymer-Silicate Nanocomposites - Examining the Static and Dynamic Properties of Poymer-Silicate Na
The static and dynamic properties of 2:1 layered silicates ion-exchanged with alkyl-ammonium surfactants was studied using Cerius2 from Accelrys. Computer modelling provides the structure and dynamics of the intercalated surfactant molecules, which can assist in the design of polymer-silicate nanoco
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