Virtual Nanolab® & Atomistix Toolkit®
The Virtual NanoLab® and Atomistix ToolKit® modeling platforms simulate physical experiments and analyze the behavior of nanoscale systems.
The user-friendly design allows scientists and engineers to take advantage of state-of-the-art atomic-scale modeling and does not require detailed knowledge of underlying theory or the numerical techniques.
Calculate:
§ Transport through a two-probe system under a finite bias voltage
§ Electronic properties of molecules, nanotubes, and bulk crystals
§ Optimized atomic geometries
The implemented modeling techniques include density-functional theory and non-equilibrium Green's functions and are a further development of the TranSIESTA-C® code.
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Virtual NanoLab® (VNL) is the user-friendly graphical interface where you design atomic configurations and generate NanoLanguage scripts with interactive tools.
§ Build complex structures with a few mouse clicks
§ Generate NanoLanguage scripts ready to be executed
§ Visualize atomic geometries and calculated physical quantities in 3D
Further information:
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Atomistix ToolKit® (ATK), the numerical engine behind Virtual NanoLab, comes with a Python-based NanoLanguage® scripting environment. The extendable functionality makes NanoLanguage an ideal tool for automating simulation series where physical and numerical parameters are to be optimized.
§ Spin-polarized calculations
§ Heterogeneous electrodes
§ Geometry optimization
§ Parallelized code, optimized for transport calculations
Further information:
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Download our Product Guide for Virtual NanoLab® and Atomistix ToolKit® product details.
Additional product details and a free demonstration is available upon request.
FREE 30 DAY TRIAL! Please contact us for a copy.
Download >>
§ Product Guide (3,032KB)
§ Virtual NanoLab® Tutorial (3,783KB)
§ Virtual NanoLab® Manual (4,712KB)
§ Virtual NanoLab® Installation Guide (250KB)
§ Virtual NanoLab® Release Notes *.txt (4KB)
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A two-probe geometry. Apply a bias voltage between the two electrodes and calculate the current-voltage curve.
Virtual NanoLab®
Applications
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§ Carbon-based
electronics (nanotubes,
graphene)
§ Catalysis
§ Fuel cells
§ Magnetic nanowires
§ Molecular electronics
(switches, diodes)
§ MRAM (tunnel-
magnetoresistance
devices)
§ Nanoscale electronics
(electrical transport)
§ Nanoscale material
properties
§ Nanowires (Al, Si)
§ Spintronics (spin-
dependent transport)
§ Surface chemistry
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Carbon Nano Tubes (CNT's)
