A team of researchers from the Ultramicroscopy Research Group at Trinity College Dublin, has recently completed the installation of a world-first User Adjustable Pole-piece (UAP) transmission electron microscope lens. The UAP represents a significant leap forward, offering researchers unique control and flexibility in their investigations.
This installation follows five years of research and engineering efforts by the Ultramicroscopy team, led by Dr Lewys Jones. The flexible choice of pole-piece gap between 1.5mm and 6.5mm, a world-first achievement, empowers researchers to select and optimize imaging conditions without the need for engineer callouts.
Dr Jones notes “We are really excited to see this technology move out of the lab and into the hands of real end-users. Installing the UAP in our own testing lab is one thing, it’s a totally different endeavour to install one in the field. Meeting the quality and reliability specifications of a major national lab isn’t easy, but the UAP is better as a result.”
The novel TEM pole-piece was installed at Sandia National Laboratories, a globally renowned institution at the forefront of scientific innovation. This collaboration was initiated by Dr Khalid Hattar, of the University of Tennessee at Knoxville and formerly a research scientist at Sandia’s Center for Integrated Nanotechnologies (CINT). Dr Hattar, a leading figure in in-situ instrumentation and experimentation notes “This new UAP technology will open up new avenues in in-situ, operando, and multi-modal electron and ion characterisation. More than that, the flexibility to perform both niche and routine experiments in a single instrument will help improve utilization and research throughput.”.
- User-selectable Gap Choice: TEM operators can choose pole-piece gaps between 1.5mm and 6.5mm, providing unparalleled flexibility without breaking the vacuum or needing engineer assistance.
- Adaptive Imaging Performance: Researchers can optimize imaging conditions by selecting the gap size, smaller gaps for improved resolution or larger gaps for wider tilt-range and improved x-ray collection.
- One-stop TEM Tool: The newly UAP equipped TEM is able to provide for wider experimental choice locally in a single lab. This opens new possibilities and reduces the need to travel between different labs.
The UAP was installed by the Trinity team in Sandia’s JEOL 2100 and sets a new standard in electron microscopy capabilities. Dr. Chris Smyth, a staff member in Sandia’s Ion Beam Laboratory and steward of the lab’s JEOL 2100, expressed profound excitement about the world-first installation of the UAP lens. “The User Adjustable Pole-piece lens represents a monumental breakthrough in electron microscopy. Its operator-controlled gap selection capability unlocks unprecedented imaging control for researchers, enabling them to customize and optimize imaging conditions. This world-first achievement will undoubtedly accelerate scientific advancements and fuel innovation across Sandia’s core missions.”. This installation represents a significant upgrade to the laboratory’s facility, and cements Sandia’s Ion Beam Laboratory (IBL) as a world leader in electron and ion beam experimentation.
This first UAP design can be installed in any new or existing 200kV or 300kV TEM from JEOL, and research is ongoing into wider vendor, holder and detector compatibility.
About the Ultramicroscopy Research Group:
The Ultramicroscopy Research Group of the Trinity College Dublin School of Physics, is based at the Advanced Microscopy Lab part of the CRANN and AMBER centres. They investigate a range of modular and retrofittable hardware and software innovations for transmission electron microscopy, to extend performance, functionality or sustainable lifetime. The research phase of this project received funding from Science Foundation Ireland, while the efforts to bring a usable product to market have been supported by Enterprise Ireland.
About Sandia National Laboratories:
Sandia National Laboratories is a multimission laboratory operated by National Technology and Engineering Solutions of Sandia LLC, a wholly owned subsidiary of Honeywell International Inc., for the U.S. Department of Energy’s National Nuclear Security Administration. Sandia Labs has major research and development responsibilities in nuclear deterrence, global security, defense, energy technologies and economic competitiveness, with main facilities in Albuquerque, New Mexico, and Livermore, California. The Center for Integrated Nanotechnologies is an Office of Science User Facility operated for the U.S. Department of Energy (DOE) Office of Science by Los Alamos National Laboratory (Contract 89233218CNA000001) and Sandia National Laboratories (Contract DE-NA-0003525). Work by the Sandia and University of Tennessee teams was supported, in part, by Sandia’s Laboratory Directed Research and Development program.