Electron Microscopes Are Awesome: Everything You Didn’t Know You Wanted To Know

Electron microscopes were once the turf of research laboratories that could foot the hefty bill of procuring and maintaining such equipment. But old models have been finding their way into the hands of eager individuals who are giving us an inside look at the rare equipment. Before you start scouring Craigslist, go on a crash course of what you need to know with Adam McComb’s Hacker’s Guide to Electron Microscopy. He presented the talk at the 2018 Hackaday Superconference and the recording was just published, you’ll find it below.

Two Ways to Make the Really Small, Big

The first thing you need to know about these instruments is that there are two categories: Transmission Electron Microscopes (TEM) and Scanning Electron Microscopes (SEM).

Though it might seem tempting, you probably don’t want to get involved with a TEM. These microscopes operate by shining electrons through a sample onto a phosphor target; the phosphors glow, building the image. With a TEM you can achieve incredible resolution — on the atomic scale — and do things like taking pictures of viruses and even reconstructing neural connections in the brain. But all this comes at the cost of higher complexity. Samples need to be very thin, on the order of 70-100 nanometers, which means you would need access to specialized cutting tools such as diamond knives and ion beam milling. The optical path is incredibly complex, and chemicals to prepare samples can be quite hazardous.

Components of an SEM are relatively simple.

On the other hand, Scanning Electron Microscopes (SEM) are well within reach of the home workshop. They function by aiming an electron probe at a sample and counting the number of electrons that bounce back at each discrete location to judge brightness. These are the instruments that hackers are starting to have in their garages and workshops.

SEM Capabilities and Workflow

In his talk, Adam illustrates some of the extended features of an SEM in examining integrated circuits — you can use one to do much more than simply making pictures. The primary electron beam generates those secondary electrons bouncing back to the sensor to form an image of the surface of the sample. But at higher voltages, backscatter electrons will also be generated which can be used to derive its chemical makeup. With the proper sensing equipment, characteristic X-Rays generated when an excited ion in the sample falls back to its ground state can be used to determine the sample material. Combining these means looking beneath the surface of the die to judge what materials are present and where they go. Effectively you are now reverse engineering the layers in an IC design.

Adam dips into details of the sample prep process, which is much easier than with a TEM but which still requires a bit of effort. Samples need to be electrically conductive so that electrons bounce off instead of being absorbed, and this usually involves sputter in an argon and gold process. Since they will be observed in a vacuum, samples must have very low moisture content, and there are some hacks around that which he shares with us.

Have you played around with SEMs? Share your stories below. We know Ben Krasnow has, since he put an LP record in the SEM. Sam Zeloof has one in his home lab. And there are SEM projects on Hackaday.io such as the efforts Jerry Biehler has been putting into a 1980s-era Hitachi. It feels like a crazy hobby, but neither the knowledge nor the equipment are out of your reach!

13 thoughts on “Electron Microscopes Are Awesome: Everything You Didn’t Know You Wanted To Know

  1. I got to play with one of these at Nuclear Electric in the UK when I was around 14 on a work experience jaunt. I was amazed when we put a bit of hair in there that it actually looked like the representations shown on adverts for shampoo!

  2. Well, I’m a bit of a fraud in this context, since I’m a professional electron microscopist, but one of the cool things you can do in an SEM is photogrammetry. You take 18-20 images at high tilt angle, rotating the samples around 20 degrees each image, with a couple of images of the top of the sample for good luck, and then run the resulting images through photogrammetry reconstruction software (I like Zephyr’s 3Dflow right now, since it’s free) and you should be able to output a highly magnified 3D model suitable for 3D printing. See some of my examples on my Sketchfab account. We’re on Instagram as well @nhm_imaging

    1. I haven’t seen it on a computer in maybe a year.
      Finally I can read the thing properly on my smartphone which is been my main computer for the last 3 years or so. This site was always really hard to see the text at the far left and in general poorly laid out as a mobile version.

      I actually kind of like the new version though I feel they could scale the text down just a hair in size

  3. I have one as well: https://debugmo.de/2018/11/my-scanning-electron-microscope/

    It’s an old Zeiss DSM-950, but we’ve added digital image readout (based on a hacked OpenVizsla FPGA board).

    I successfully imaged a couple MEMS devices (https://twitter.com/tmbinc/status/1045683618780258305 etc.), DVDs and other optical media (https://twitter.com/tmbinc/status/992020274794115073 etc.) and random other stuff (https://twitter.com/tmbinc/status/1097893078105554945) with it.

    Resolution isn’t awesome (yet?), but much better than an optical microscope – roughly 50nm, though it’s spec’ed at 10nm.

    It’s a fun toy.

  4. Diamond knives and ion beam milling? I’m deeply interested in learning more. Familiar with ulteasonic coring samplers for microscopy, but not these things. Anyone refer to further info?

  5. I’m in the process of buying a isi-sr-50 with my hackerspace Bitlair, the Netherlands.
    Where does a hack like me find information on these devices?
    Is there a SEM enthusiast forum with a secret site for manuals from the 80’s?

    Thanks in advance.
    Anyone knowledgeable or just interested send me a message.

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