Topic: Build your own scanning tunneling microscope.  (Read 1297 times)

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IKV Nemesis D7L

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Build your own scanning tunneling microscope.
« on: January 04, 2004, 12:22:05 am »
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Introduction

The emerging Nanotechnology is expected to change our world to a comparable extent as Microtechnology has (introducing integrated circuits, microsurgery and spacecrafts).

To give everybody an opportunity to make his own "hands on" experience with the Nanoworld we provide all information to build up and use some of the standard equipment of this fascinating field of science, starting with the Nobel-Prize-Winner of 1986: the Scanning-Tunneling-Microscope (STM).

The Scanning-Tunneling-Microscope
Scanning tunneling microscopy, developed by Binnig and Rohrer in the early eighties, allows the investigation of molecular and also atomic structures. It is the only technique with such a high resolution, that even works in air and in liquid.

The STM consists of a very fine, electrically conducting tip, which is guided over a sample surface at an extremely small distance. Owing to an applied voltage a current flows between tip and sample, where the variation of the current reveals information about the electronic structure of the surface and can also render a height relief. A computer is used to collect single scan points and calculates a detailed map of the sample surface.

Today tunneling microscopy is a standard technique in nanoscience, which is not only used to investigate samples at the atomic scale, but can be employed to construct structures atom by atom as well.

We hope you enjoy the content of the following pages and have fun constructing our scanning tunneling microscope!



 

IKV Nemesis D7L

  • Guest
Build your own scanning tunneling microscope.
« Reply #1 on: January 04, 2004, 12:22:05 am »
Link

Quote:

Introduction

The emerging Nanotechnology is expected to change our world to a comparable extent as Microtechnology has (introducing integrated circuits, microsurgery and spacecrafts).

To give everybody an opportunity to make his own "hands on" experience with the Nanoworld we provide all information to build up and use some of the standard equipment of this fascinating field of science, starting with the Nobel-Prize-Winner of 1986: the Scanning-Tunneling-Microscope (STM).

The Scanning-Tunneling-Microscope
Scanning tunneling microscopy, developed by Binnig and Rohrer in the early eighties, allows the investigation of molecular and also atomic structures. It is the only technique with such a high resolution, that even works in air and in liquid.

The STM consists of a very fine, electrically conducting tip, which is guided over a sample surface at an extremely small distance. Owing to an applied voltage a current flows between tip and sample, where the variation of the current reveals information about the electronic structure of the surface and can also render a height relief. A computer is used to collect single scan points and calculates a detailed map of the sample surface.

Today tunneling microscopy is a standard technique in nanoscience, which is not only used to investigate samples at the atomic scale, but can be employed to construct structures atom by atom as well.

We hope you enjoy the content of the following pages and have fun constructing our scanning tunneling microscope!



 

IKV Nemesis D7L

  • Guest
Build your own scanning tunneling microscope.
« Reply #2 on: January 04, 2004, 12:22:05 am »
Link

Quote:

Introduction

The emerging Nanotechnology is expected to change our world to a comparable extent as Microtechnology has (introducing integrated circuits, microsurgery and spacecrafts).

To give everybody an opportunity to make his own "hands on" experience with the Nanoworld we provide all information to build up and use some of the standard equipment of this fascinating field of science, starting with the Nobel-Prize-Winner of 1986: the Scanning-Tunneling-Microscope (STM).

The Scanning-Tunneling-Microscope
Scanning tunneling microscopy, developed by Binnig and Rohrer in the early eighties, allows the investigation of molecular and also atomic structures. It is the only technique with such a high resolution, that even works in air and in liquid.

The STM consists of a very fine, electrically conducting tip, which is guided over a sample surface at an extremely small distance. Owing to an applied voltage a current flows between tip and sample, where the variation of the current reveals information about the electronic structure of the surface and can also render a height relief. A computer is used to collect single scan points and calculates a detailed map of the sample surface.

Today tunneling microscopy is a standard technique in nanoscience, which is not only used to investigate samples at the atomic scale, but can be employed to construct structures atom by atom as well.

We hope you enjoy the content of the following pages and have fun constructing our scanning tunneling microscope!