Basic Electron Microscopy Arthur Rowe The Knowledge Base at a Simple Level.

Slides:

Advertisements

Similar presentations

Advertisements

Adjusting a Microscope 1Center components on optic axis 2Focus objective 3Focus condenser 4Adjust illumination lamp voltage (intensity) iris diaphragm.

Basic Electron Microscopy

Basic Electron Microscopy

Careers in Design. What do need to know to do this? But what do you need for this.

Observing Microorganisms Through a Microscope

XII. Electron diffraction in TEM

3.1 AS Unit F211: Cells, Exchange and Transport The cell is the basic unit of all living things. How to use a light microscope Why electron microscopes.

Visualizing Prokaryote Cells Chapter 3 - Black. Light.

Transmission Electron Microscopy (TEM)

Catalysis and Catalysts - TEM and SEM Principles of Electron Microscopy (EM)  Resolution strongly dependent of wavelength: –electron microscope: about.

Lecture 11. Microscopy. Optical or light microscopy involves passing visible light transmitted through or reflected from the sample through a single or.

Electron Optics.

Scanning Electron Microscope (SEM)

Fire Protection Laboratory Methods Day

Groups: WA 2,4,5,7. History  The electron microscope was first invented by a team of German engineers headed by Max Knoll and physicist Ernst Ruska in.

Light and Optics 4.1 Mirrors form images by reflecting light. 4.2

Light, Reflection, and Refraction Chapters 14 and 15 OPTICS.

© 2014 Pearson Education, Inc. This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Scanning Electron Microscope Jamie Goings. Theory Conventional microscopes use light and glass lenses SEM uses electrons and magnetic lenses to create.

CHEM 515 Spectroscopy Lecture # 1.

Transmission Electron Microscopy (TEM) By Austin Avery.

© Imperial College LondonPage 1 Detecting gold nanoparticles in electron microscope images John Cupitt, Exp. Med. & Tox. 16 November 2009.

Biology 177: Principles of Modern Microscopy

Microscopes Section 3-1.

AS Biology Core Principles The Electron Microscope.

LESSON 5. LLight Microscopy BBright-field microscopy PPhase Contrast microscopy DDifferential Interference Contrast (or Nomarski) DDark-field.

Electron Microscopy.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Microscopy Maurice Wetherall University Senior College.

Chapter 1 Cells: discovery and exploration. Cells are the basic function units of all living things. Most cells are too small to be seen by the naked.

Introduction to transmission electron microscopy

OU NanoLab/NSF NUE/Bumm & Johnson Microscopy & Resolution Magnification:Image size/Object size Resolution:The fineness of detail that can be distinguished.

Microscopy. Scale Lenses and the Bending of Light light is refracted (bent) when passing from one medium to another refractive index –a measure of how.

Living Organisms Consist of Cells State the resolution and magnification that can be achieved by a light microscope Explain the difference between magnification.

Electron Microscopy 1 Electron Microscopy (EM) Applying Atomic Structure Knowledge to Chemical Analysis.

Microscopes Light microscope Depth of field: small.

Other modes associated with SEM: EBIC

TAKE ONE OF EACH! TAKE ONE OF EACH! Microscopes.

Chapter 34 Electromagnetic Waves and light. Electromagnetic waves in our life Microwave oven, EM wave is used to deliver energy. Radio/TV, cell phones,

Light, Reflection, and Refraction Chapters 14 and 15.

AS Biology Core Principles The Electron Microscope Powerpoint hosted on Please visit for 100’s more free.

Microscopes Compound Bright-Field Light Microscope

TEM charcaterization Basic modes – Bright field microscopy – Dark field Microscopy –STEM – EDAX – EELS.

Tools in Science Miss Colabelli. Tools & Techniques Tools are objects to improve the performance of a task. Microscopes are tools that extend human vision.

Physics: Principles with Applications, 6th edition

Scanning capacitance microscopy

Viewing Cells A. Magnifying cells A. Early microscopes – lenses made images larger but not always clear. B. Modern microscopes that use lenses to bend.

Transmission Electron Microscopy (TEM)

THE MICROSCOPE: SEEING IS BELIEVING (PART 1) SC.912.L.14.4 COMPARE AND CONTRAST STRUCTURE AND FUNCTION OF VARIOUS TYPES OF MICROSCOPES.

Microscopy as an analytical tool Dr Imran. Wavelength and resolution Resolution (r) = λ / (2NA) R= resolution λ = wavelength of light used for imaging.

Chapter 1.2 Electron Microscopy.  Top photo is a light micrograph : a photograph taken with a light microscope (aka a photomicrograph)  Bottom photo.

The Electron Microscope

Click on image for SEM images electron microscope Principles and limitations of scanning and transmission EM Difference between magnification and.

Laser Confocal Microscopy

Laboratory Introduction

Laboratory equipment Lecture (3).

Introduction to Scanning Electron Microscope by Sameer S

METALLURGICAL MICROSCOPE

Electron Microscope Dr. Laxmi Kant Pandey.

Electromagnetic Radiation

NANO 230 Micro/NanoFabrication

Topic 1: Introduction to Histology

Microscopes Section 4.2.

PHY138 – Last Waves Lecture Today’s overview

Laboratory Exercise 2 “Microscopy”.

Types of Microscopy Type Probe Technique Best Resolution Penetration

The Microscope Appendix C pp.4-5

Microscopes Chapter 7.

Presentation transcript:

Basic Electron Microscopy Arthur Rowe The Knowledge Base at a Simple Level

Introduction These 3 presentations cover the fundamental theory of electron microscopy In presentation #1 we cover: – the bits of optics we need to know – production of an electron beam – why we need vacuum & how we get it – the foundations of electron optics

Sites for Electron Microscopy These sites contain useful information concerning most of the range of techniques available *************************************************************** Microscopy & Imaging: Resources on the WWW (University of Arizona) i_onw3.html Everything in sight (site ?), including the Electron Microscopy Yellow Pages ! **************************************************************

***************************************************** Gina Sosinskys EM Outreach program: Based at the Supercomputing Center at San Diego, this site includes a very full set of Web-based lecture notes. Good text, but sadly, Gina has had problems getting many microscopists to agree to copyright release for their work, so for the moment the illustrations are rather minimal. One slight mis-statement, it is said that shadowing usually gives much worse resolution than negative staining. Not true. *****************************************************

Analytical Imaging Facility at Albert Einstein College of Medicine: Concentrates heavily - as you would expect - on the analytical side of microscopy. All types are considered, light and electron microscopy being integrated together. As you might expect from the Albert Einstein, this site is a fantastic resource *****************************************************

Helen Saibils home page: Lovely images and some movies of selected protein-based systems, including chaperonin (GroEL - GroES) and pore-forming toxin (pneumolysin) *****************************************************

UNSWs Image Gallery: Slanted towards histology in the biology section, but good images *****************************************************

**************************************************** University of Sussex - EM site some good teaching material at a simple level, as well as some pretty images. ****************************************************

and you can of course go on almost for ever, if you enter electron microscopy into a search engine (SCIRUS is good for science) so now, on to the basics......

imaging with a simple lens

the meaning of focal length

when we image a simple point

definition of resolution

the electron gun

wavelength & voltage

why high vacuum ?

how does a diffusion pump work?

the electromagnetic lens

the transmission electron microscope

The TEM Column _ Gun emits electrons _ Electric field accelerates _ Magnetic (and electric) field control path of electrons _ Electron 200KeV 2x m _ Resolution normally 200KeV 2 x m 2Å