The scanning tunneling microscope (STM) is a type of electron microscope that uses a fine probe tip to scan surfaces at the atomic level. The STM has been instrumental in the nanotechnology, which involves manipulating matter at the atomic scale to create materials and devices with novel properties. The STM works by scanning a sharp metal tip across the surface of a sample. As the tip scans the surface, an electrical current passes through the tip and the sample, allowing the surface to be imaged at an atomic level. The STM has many advantages over traditional optical microscopes. It can image surfaces with an extremely high resolution and can detect the presence of individual atoms. The STM can also be used to manipulate individual atoms and molecules, allowing scientists to create nanostructures with precise control. The STM has been used to create nanoscale devices such as transistors and logic gates, and has also been used to create nanomaterials with novel properties. The STM is an invaluable tool for scientists studying nanotechnology, allowing them to explore and manipulate matter at the atomic scale. The STM has enabled the of a wide range of nanomaterials and devices, and is likely to continue to play an important role in the advancement of nanotechnology.
Thomas J Webster
Hebei University of Technology, United States
Hossein Hosseinkhani
Innovation Center for Advanced Technology, Matrix, Inc., United States
Hai Feng Ji
Drexel University, United States
Paulo Cesar De Morais
Catholic University of Brasilia, Brazil
Azzedine Bensalem
Long Island University, United States
Robert Buenker
Wuppertal University, Germany
Rafal Kozubski
Jagiellonian University in Krakow, Poland
Sylwia Wcislik
Kielce University of Technology, Poland
Raman Singh
Monash University-Clayton Campus, Australia
Michael I Tribelsky
Moscow State University, Russian FederationSubmit your abstract Today
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