Microanalysis Webinars

Cell phone cover glass, also known as surface covers, is an important component in today’s high-tech economy. Hundreds of millions of such items are sold each year. This material is composed of multiple surface layers designed  for scratch resistance and reduced reflections deposited on a special glass treated to increase strength.

To understand if an item has been correctly manufactured or to investigate why an item is not performing as expected it is very useful to visualize its structure at the microscopic level. Scanning Electron Microscopy (SEM) and Energy Dispersive x-ray Spectroscopy (EDS) have the ability to visualize materials down to the nanometer level and to reveal the elemental composition of a material to a resolution of some tens of nanometers.

Working with a petrographic thick section of an igneous rock, this presentation demonstrates the application and value of detailed X-ray phase mapping of very large area (27 mm X 48 mm). In order to calculate the bulk composition of a geological sample, or to interpret how the sample formed, an analyst needs to identify phases and their abundance over an area large enough to get a statistically appropriate representation of the complete sample.

This presentation shows how the multivariate statistical analysis of EDS spectral images enable the accurate identification and abundance determination of phases from very large sample areas in practical timeframes. Practical considerations, such as how much data is necessary to successfully generate phase maps, are also discussed.

Runtime: 20 minutes

Geologists using SEM/EDS now have all the tools necessary to understand the elemental and chemical composition of petrographic and mineralogical samples. 

In our webinar we demonstrate how the Alpine configuration of our Pathfinder EDS software uses point or area analysis to qualify the geological spectra by weight percent, compound (oxide) percent, or can be normalized to the number of cations. We also show how we match an acquired spectrum against a known spectrum stored in a database.

Runtime: 11 minutes

With advances in microscopy techniques such as low vacuum environmental SEMs and cryo-cooling, we can now study organic and life science materials with SEM/EDS. 

This presentation explores how the Thermo Scientific Pathfinder system reveals answers from sparse elemental distribution analysis, trace element detection and analysis based on gray-scale imaging from elemental regions and items of interest. Principal component analysis and x-ray imaging filters enable a highly effective way to visualize and characterize of these regions.

Runtime: 10 minutes

Pathfinder Pinnacle enables the characterization of semiconductor and microelectronic devices with several advanced software packages: 

1. Extreme Element mapping with peak deconvolution and background subtraction for artifact free X-ray element mapping.
2. X-ray imaging filters that sharpen, smooth and edge-find the X-ray element maps to ensure that you deliver clean, clear chemical images to your customers. Particularly powerful when applied to TEM data.
3. Principal Component Analysis. Ensures the most accurate EDS phase maps with the click of a button with only a fraction of the data.

We review the capability and power of these features for cross-sectional views of semiconductor devices on the nanoscale in both the SEM and the TEM. 

Runtime: 17 minutes

Understanding alloys can be one of the most challenging analyses in SEM/EDS. Typical SEM/EDS analysis often produce a homogenous element distribution across the sample, masking important chemical differences. 

Our presentation demonstrates two techniques that successfully extract clear differences in these phases. Image filters can bring out clearly seen distinctions between phases without changing the underlying statistics in the data. Principal component analysis (PCA) algorithms quickly determine the dominate components within the sample that correlate to these phases.

Runtime: 14 minutes

Fabricating devices that are smaller, faster and lower cost are key drivers in semiconductor and microelectronics industries, presenting new challenges in characterizing and understanding their composition. The Pathfinder Alpine EDS platform was specifically designed to address these challenges.

In this presentation we highlight some of the key features that assist in this work: Drift compensation, extreme element mapping and off-line data processing. We will show the types of analysis of semiconductor samples:

1. Plan-view analysis of an array of micro-cells
2. SEM cross-section view of asemiconductordevice 
3. TEM cross-section view of a semiconductor device

Runtime: 15 minutes

Ceramics are used in many parts of our culture from artistic artifacts to automotive components to electronic components and more. These materials can be single element oxides or complex composites. In the case of manufactured parts, Pathfinder EDS is used to verify the composition of a sample or to look for reasons why a part has failed. In other cases Pathfinder EDS is used to learn the structure of unknown samples such as artistic artifacts.

X-ray microanalysis with the Alpine level of Pathfinder allows an engineer to visualize the elemental composition of a sample at any location on the surface of a sample. In this webinar Pathfinder is used to examine a variety of ceramic samples. In simple cases it is simply necessary to point to a specific area and confirm the composition at that location. In more complex analyses, maps are made of element distributions. With spectrum processing, elemental deposits in maps can be found down to the detection level of the instrument.

Runtime: 28 minutes

Ceramics are used in many parts of our culture from artistic artifacts to automotive components to electronic components and more. These materials can be single element oxides or complex composites. In the case of manufactured part Pathfinder EDS is used to verify the composition of a sample or to look for reasons why a part has failed. In other cases Pathfinder EDS is used to learn the structure of unknown samples such as artistic artifacts.

Microanalysis with Pinnacle level of Pathfinder allows an engineer to visualize the elemental composition of a sample at any location of the surface of the sample. Moreover, principle component analysis (PCA) and Phase Analysis quickly process maps to reveal the presence of combinations of elements.  In this webinar Pinnacle Pathfinder is used to examine a variety of ceramic samples. Maps reveal element distributions. With PCA and Phase Analysis maps are quickly parsed to reveal the groupings of elements in samples. Large areas can be analyzed by stitching together multiple maps analyzed by PCA and Phase analysis.

Runtime: 28 minutes