Tools of the Nanosciences There’s plenty of room at the bottom It is my intention to offer a prize of $1,000 to the first guy who can take the information.

Slides:

Advertisements

Similar presentations

Measuring Nanostructures. How do we see nanostructures? A light microscope? Helpful, but cannot resolve below 1000 nm An electron microscope? Has a long.

Advertisements

AFM-Raman and Tip Enhanced Raman studies of modern nanostructures Pavel Dorozhkin, Alexey Shchekin, Victor Bykov NT-MDT Co., Build. 167, Zelenograd Moscow,

Spectroscopy is the study of interactions between light and matter. Photoinduced absorption spectroscopy can show us which materials (such as quantum dots)

1 THERE’S PLENTY OF ROOM AT THE BOTTOM. M. SanverCS Colloquium – Winter 2002 R.P. Feynman “There’s plenty of room at the bottom” by R.P.Feynman Presented.

Nanoscale Tools Special microscopes are used to investigate atomic and molecular structures. The following pictures are just a few examples of the many.

Nanoscience 15 lectures + 3 tutorials

Basic Imaging Modes Contact mode AFM Lateral Force Microscopy ( LFM)

November 14, 2005EEBE 512/ENEL Dr. KE Jones Lecture 22: Chapter 4: Surface Characterization in Biomaterials and Tissue Engineering Really just a.

Kirchhoff-Institut für Physik Molekulare Biophysik (F15) Gerrit L. Heuvelman Atomic Force Microscope.

STM / AFM Images Explanations from

Do it with electrons !. Microscopy Structure determines properties We have discussed crystal structure (x-ray diffraction) But consider now different.

Copyright © 2005 SRI International Scanning Probe Microscopy “Seeing” at the nanoscale.

NATSYCO. microscopy Optical microscopy Electron microscopy Scanning probe microscope.

WHAT IS A QUANTUM THEORY ? Quantum theory is the theoretical basis of modern physics that explains the nature and behavior of matter and energy on the.

Three-dimensional Silicon composite nanostructures, taken with a scanning electron microscope.

“Scanning Tunneling Microscopy Transmission Electron Microscopy”

Electricity and Magnetism

Cytoplasmic Organelles Plastids Plant organelle that may take many forms. Examples include chloroplast, leukoplasts (which store food), & chromoplasts.

Demolding ENGR Pre Lab.

How Do We Measure Forces at the Nanoscale Level? 1 © 2009 McREL Physical Science Lesson 7 How Do We Measure Forces at the Nanoscale Level? Investigating.

JUN YAN UNIVERSITY OF MASSACHUSETTS AMHERST 2015 SUMMER INSTITUE ON NANOSCIENCE.

Electron Microscopes Used to count individual atoms What can electron microscopes tell us? Morphology – Size and shape Topography – Surface features (roughness,

What has enabled Nanoscience? Advances in Computing Power New Generation of Scientific Instruments Scanning Probe Microscopes An incomplete list.... Very.

Applications of Quantum Physics

What Makes Nanoscience so Important? Nanoscience What Is It?

NANO 225 Micro/Nanofabrication Characterization: Scanning Probe Microscopy 1.

Tutorial 4 Derek Wright Wednesday, February 9 th, 2005.

Why Diffraction, Why Neutrons? J. A. Dura Neutron Small Angle Scattering and Reflectometry NCNR Summer School on June 26, 2006.

NANO 225 Micro/NanoFabrication Electron Microscopes 1.

Common scanning probe modes

Reminders for this week Homework #4 Due Wednesday (5/20) Lithography Lab Due Thursday (5/21) Quiz #3 on Thursday (5/21) – In Classroom –Covers Lithography,

Scanning Probe Microscopy Colin Folta Matt Hense ME381R 11/30/04.

Today –Homework #4 Due –Scanning Probe Microscopy, Optical Spectroscopy –11 am NanoLab Tour Tomorrow –Fill out project outline –Quiz #3 in regular classroom.

5 kV  = 0.5 nm Atomic resolution TEM image EBPG (Electron beam pattern generator) 100 kV  = 0.12 nm.

Engr College of Engineering Engineering Education Innovation Center Engr 1182 Nano Pre-Lab Demolding Rev: 20XXMMDD, InitialsPresentation Short.

By: Mrs. Crisp Matter. S.P.I Academic Vocabulary Element A pure substance that cannot be broken down into any simpler substance through chemical reaction.

Magnetic Nanostructures F. J. Himpsel, Dept. of Physics, UW-Madison Limits of Data Storage Magnetoelectronics One-Dimensional Structures on Silicon SSSC.

Characterization of Nanomaterials…

NANO Week District 205. What is Nanotechnology?  Understanding and using objects that are less than 100 nm in size  Nanotechnology can be used in (let’s.

MAGNETISM Understand the Attraction!. Magnetism Magnetic means the ability to make forces on magnets or other magnetic materials Permanent Magnet Electromagnet.

1 Cutting it down to size activity. What is Nanoscience? The study of matter on the “nanometer” scale. A nanometer is one billionth (10 –9 ) of a meter.

Introduction to Spintronics

About Nanotechnology - general informations -.

Nanotechnology. Presented by Mr. Lundberg Test your knowledge of scale... What is the thickness of a dollar bill.. in nanometers? (the answer will be.

Tools of a Biologist MICROSCOPY Two factors play an important role in microscopy: 1. Magnification compares real size of a specimen with the one viewed.

Donovan Sung EE235 Student Presentation 4/16/08 Chemical identification of individual surface atoms by atomic force microscopy.

EEM. Nanotechnology and Nanoelectronics

Scanning Tunneling Electron Microscopy. Here they have positioned 48 iron atoms into a circular ring in order to "corral" some surface state electrons.

Applications   Semiconductors   Electric & Magnetic Devices   Carbon Nanotubes   Oxide materials   Nanoparticles and Nanocrystals   Dielectrics.

MAGNETISM 1. Magnetic Force 2  Magnetic Force: the force a magnet exerts on either  another magnet  on iron (or similar metal)  on moving charges.

Do it with electrons !. Microscopy Structure determines properties We have discussed crystal structure (x-ray diffraction) But consider now different.

KYLE RETZER COSC 380 Nanotechnology. Roadmap The Nanoscale. What is it? Starting point. Nanotechnology today. How is it useful?

Atomic Resolution Imaging

Molecular spectroscopy and reaction dynamics Group III

Adapted from Nanosense

3.3 Other types of microscopy

Adapted from Nanosense

Scanning Probe Microscopy History

Scanning Probe Microscopy History

Prepared by Dr Diane Aston, IOM3

MODULE B-3: SCANNING TUNNELING MICROSCOPY

Scanning Probe Microscope

Adapted from Nanosense

Nanocharacterization (III)

The learning goal of this course is the basic operation of atomic force microscope, and operation principle of several basic imaging modes in the family.

Types of Microscopy Type Probe Technique Best Resolution Penetration

Scanning Probe Microscopy

Planck’s law: E=hn =hc/l

3 A Figure 1. Schematic of a conventional scanning tunneling microscope (STM).

Presentation transcript:

Tools of the Nanosciences There’s plenty of room at the bottom It is my intention to offer a prize of $1,000 to the first guy who can take the information on the page of a book and put it on an area 1/25,000 smaller in linear scale in such manner that it can be read by an electron microscope. another $1,000 to the first guy who makes an operating electric motor---a rotating electric motor which can be controlled from the outside and, not counting the lead-in wires, is only 1/64 inch cube. -Richard Feynman, 1960

Tools for Measuring Nanostuctures Scanning Probe Instruments –Atomic Force Microscope (AFM) –Scanning Tunneling Microscope (STM) –Magnetic Force Microscope (MFM) Spectroscopy Electrochemistry Electron Microscopy

Atomic Force Microscopy Probe is nanoscale dimensions, often only a single atom in size Electronics are used to measure the force exerted on the probe tip as it moves along the surface Picture of MoO3 single crystal by an inter-atomic-force microscopy

Scanning Tunneling Microscope The amount of electrical current flowing between a scanning tip and a surface is measured. Can be used either to test the local geometry or to measure the local electrical conducting characteristics Silicon atoms as viewed with the scanning tunneling electron microscope (STEM).

Spectroscopy Nuclear Magnetic Resonance Imaging –is a physical phenomenon based upon the quantum mechanical magnetic properties of an atom's nucleus.quantum mechanicalmagneticatomnucleus

Magnetic Force Microscopy The tip the scans the surface is magnetic. Used to sense the local magnetic structure on the surface. Works in a similar way to the reading head on a hard disk drive or audio cassette player. 10x10 µm MFM images of magnetic tape, topography (A) and phase image (B). The magnetic domains are ~ 650 nm in length.

Electrochemistry Deals with how chemical processes can be changed by the application of electric currents, and how electric currents can be generated from chemical reactions. Nature of the surface atoms in an array can be measured directly

Electron Microscopy Electrons are accelerated and passed through a sample. As the electrons encounter nuclei and other electrons, they scatter. By collecting electrons that are NOT scattered, we can construct an image that describes where the particles were that scattered the electrons that didn’t make it through. Based on the use of electrons rather than light to examine the structure and behavior of the material.