El Microscopio de Efecto Túnel (PHYWE) El primer microscopio de efecto túnel (STM) fue desarrollado por Gerd Binnig y Heinrich Rohrer, del laboratorio de investigación de IBM en Rüschlikon, Suiza, haciendo accesible a los átomos de un pequeño grupo de especialistas. El STM PHYWE va un paso más y hace que el mundo de los átomos accesible a todos! Su entrada fácil en el mundo de los átomos En todo el mundo, cientos de STM se han convertido en una parte crucial de la Nano-Educación en Física, Química, así como la Ciencia de los Materiales. Los profesores aprecian la facilidad de uso de la STM, que les permite ofrecer rápidas y sin complicaciones las demostraciones en clase a sus estudiantes. Los estudiantes se vuelven altamente motivados por los rápidos éxitos obtenidos cuando se utiliza el STM durante sus primeros pasos en la práctica de la nanociencia. Todo el mundo puede manejar con seguridad los STM porque el sistema funciona con voltajes bajos.
Características clave y beneficios
Fácil de usar: Ideal para la educación de la nanotecnología y la divulgación Rápida resolución atómica sobre una mesa normal: No hay necesidad de aislamiento de vibración caro Portátil y compacto: transportable, fácil de instalar . Etapa de la muestra accesible y la exploración punta: el intercambio rápido de la punta y la muestra Bajo voltaje de operación: seguridad para todos los usuarios
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Scanning-Tunneling-Microscope Your entry into the world of atoms and molecules
Fascinating Experiments in the field of quantum mechanics, solid state physics, material sciences and nanotechnology Since the developement of the Scanning Tunneling Microscope (STM) by Gerd Binning and Heinrich Rohrer in 1981 and the nobel prize for physics in 1986 the STM is one of the most used device in the fields of surface sciences and nano sciences. It provides a direct and affordable access to the nanoscopic world and enables the investigation of effects and characteristics at atomic and molecular scale The Compact-STM from PHYWE is designed for quick and reliable measurements by experts and novices alike. It is characterized by a compact design with integrated controll-unit and vibrational damping. Together with the easy handling and the included well-engineered software measureNano the PHYWE STM is a ideal devices for scientific classes, science centers, lectures, lab courses and research to convey the fascination of nanoscale world as well as applications of nanotechnology.
Applied Sciences
Features Compact measuring USB device with integrated control-unit and vibration damping Imaging and spectroscopy of conducting samples at atomic scale including measureNano, a wellengineered software for measuring, analyzing and visualization Complete set, incl. HOPG- and GoldSample, Tools and Consumables Easiest and most affordable method for a direct access into the nano world Unpacking, Swichting-on, Measuring – in 15 min to atomic resolution Experiments in the fields of quantum mechanics, solid state physics, material sciences, nano sciences
www.phywe.com
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For example, the imaging of graphite (HOPG) atoms can be performed without preparation time in only 15 min, from unpacking to the result of course. The Compact-STM is an USB-device and is being delivered in stable aluminium case including consumables, tools and sample set. A variety of experiments to following topics can be performed: Material characteristics, like micro and nano morphology
Quantum mechanical effects, such as tunneling and charge density waves
Nano structures
Single molecule contacts
Imaging of atoms and molecules
Self organization of molecules (self assembled monolayers)
Solid State characteristics, such as conductivity
and many more
2 x 2nm2, atomic resolution on graphite (HOPG)
13 x 13nm2, 2-D molecular crystals of dotriacontan and octadecanol on graphite
6 x6 nm2, Charge density waves on TaS2
560 x 560nm2, evaporated gold terraces with mono atomic step height
500 x 500nm2, carbon nanotubes on graphite
500 x 500nm2, polished copper surface
11 x 11nm2, Electrode surface modified with multilayers of polyoxometalate
500 x 500nm2, nano grid
Products Compact-Scanning Tunneling Microscope Complete set to study conducting samples at atomic and molecular scale, incl. samples, tools and consumables Content of delivery: Scan head and control-unit on vibration-isolated experimentation board, scan head cover with magnifying lens, toolset for preparing and mounting tunneling tips,Pt-Ir wire for tunneling tips,Sample Kit incl. HOPG (high oriented polycrystalline graphite), gold (111) films on sample support, and 4 spare sample supports,power supply, USB cable, aluminium case, software measureNANO, for measuring, analyzing and visualization, handbook including short description of starting experiments with graphite and gold (111), Quick Installation Guide Compact-Scanning Tunneling Microscope
09600.99
PHYWE Systeme GmbH & Co. KG
Robert-Bosch-Breite 10 D-37079 Göttingen
T. +49 (0) 551 604 - 0 F. +49 (0) 551 604 - 107
info@phywe.com www.phywe.com
Grand’Route 79 B-4610 Beyne-Heusay
T. +32 (0) 436 162 - 30 F. +32 (0) 436 162 - 48 + 49
liege@phywe.com www.phywe.com
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10/2009, Copyright by PHYWE Systeme GmbH & Co. KG, subjects to alteration, errors and omissions excepted. 00251-02