HILLSBORO, Ore. and HEIDELBERG, Germany, April 25, 2016 (GLOBE NEWSWIRE) -- FEI (NASDAQ:FEIC) and CEOS announced today that they have delivered the first sub-Ångstrom, low-voltage electron (SALVE) microscope to the University of Ulm. The microscope, equipped with a Cc/Cs-corrector from CEOS, was developed in collaboration with the University of Ulm. It uses electrons with energies between 20keV and 80keV, much lower than typical for a transmission electron microscope (TEM), to enhance contrast and reduce radiation damage to light element samples, including two-dimensional (2D) materials like graphene and organic materials. The system corrects both spherical and chromatic aberrations to deliver atomic-scale image resolution and reduces the energy spread of the beam with a monochromator to provide high-energy resolution spectroscopic analysis of composition, electronic structures and bonding states.
“We are truly excited to receive this new tool, which is the first of its kind. Our long effort pays off,” said Prof. Ute Kaiser, University of Ulm, head of the SALVE project. “It will allow our researchers to visualize atomic structures with sub-Ångstrom spatial resolution in materials that have, until now, been difficult to investigate because of their sensitivity to damage by the electron beam and their low imaging contrast. We believe it will open the door to ground-breaking discoveries in this important class of materials.”
“We could not have developed this industry-leading microscope without the critical contributions of our partner CEOS and the close interaction with the University of Ulm,” said Bert Freitag, FEI’s director of product marketing for Materials Science. “Excellent teamwork throughout the project and the early-stage development of the correction system by CEOS has allowed us to build the SALVE tool in record time, with initial results that actually exceeded the guaranteed performance specification for low-voltage TEM imaging. In addition to outstanding imaging performance, it supports cryo-EM techniques at liquid nitrogen temperatures and provides high-resolution electron energy loss spectroscopy (EELS) information at low voltages. These capabilities will extend the range of our industry-leading Titan™ Themis TEM platform into entirely new application spaces, such as research on molecules and new 2D materials.”
Prof. Max Haider, CEOS GmbH, adds, “We have had great success with our correctors for spherical aberration at higher voltages. Now we are seeing similar success correcting the chromatic aberrations that limit performance at lower voltages. The SALVE system uses both kinds of correction to deliver unprecedented imaging capability for some very interesting materials that have, until now, not been able to investigate with TEM in atomic resolution.”
Materials composed of light elements, such as carbon containing organic materials, and samples that are extremely thin, such as graphene, a 2D carbon film only one atom thick, have been resistant to investigation in electron microscopes because they interact weakly with, and are more easily damaged by, the high-energy electrons in the microscope’s electron beam. Lower-energy beam electrons would interact more strongly and cause less damage, but the performance of conventional electron microscopes deteriorates at lower energies because small variations in energy among the individual electrons of the beam become larger relative to the average beam energy. These variations cause the electrons to focus differently, degrading resolution. The chromatic aberration corrector of the SALVE microscope corrects for these variations and permit sub-Ångstrom resolution at lower energies, generating more image contrast and reducing sample damage.
The SALVE project is funded by the German Research Society and the Ministry of Science, Research and the Arts Baden-Württemberg. For more information, please visit www.salve-project.de.
About the University of Ulm
The University of Ulm is situated in the east of Baden-Württemberg at the river Danube. The research, studying, and teaching activities concentrate on medicine, economics, natural science, engineering and material science. About 10,000 students are currently enlisted at the University of Ulm. The electron microscopy group headed by Prof. Ute Kaiser is well-known for the research in the field of low-voltage TEM and its application to novel beam sensitive materials such as low-dimensional objects. The group was one of the first adopters and users of aberration-corrected TEM technology with the FEI Titan system already in 2005. In 2008 Ute Kaiser started to establish the SALVE project with the aim of developing the prerequisites for transmission electron microscopy capable to reach atomic resolution at 20 kV. More information can be found at: www.salve-project.de.
About CEOS, GmbH
CEOS GmbH is a privately owned SME which concentrates on the developments and research of advanced charged particle optical components like aberration correctors for high resolution TEMs and STEMs as well as SEMs. Most of these components are produced by CEOS and after factory alignment and proper testing shipped as OEM products to the EM manufacturers. CEOS is located in Heidelberg, Germany and has more than 40 employees. More information can be found at: www.ceos-gmbh.de.
About FEI
FEI Company (Nasdaq:FEIC) designs, manufactures and supports a broad range of high-performance microscopy workflow solutions that provide images and answers at the micro-, nano- and picometer scales. Its innovation and leadership enable customers in industry and science to increase productivity and make breakthrough discoveries. Headquartered in Hillsboro, Ore., USA, FEI has over 2,800 employees and sales and service operations in more than 50 countries around the world. More information can be found at: www.fei.com.
FEI Safe Harbor Statement
This news release contains forward-looking statements that include statements regarding the performance capabilities and benefits of the Titan Themis TEM and sub-Ångstrom, low voltage electron (SALVE) microscope. Factors that could affect these forward-looking statements include but are not limited to our ability to manufacture, ship, deliver and install the tools, solutions or software as expected; failure of the product or technology to perform as expected; unexpected technology problems and challenges; changes to the technology; the inability of FEI, its suppliers or project partners to make the technological advances required for the technology to achieve anticipated results; and the inability of the customer to deploy the tools or develop and deploy the expected new applications. Please also refer to our Form 10-K, Forms 10-Q, Forms 8-K and other filings with the U.S. Securities and Exchange Commission for additional information on these factors and other factors that could cause actual results to differ materially from the forward-looking statements. FEI assumes no duty to update forward-looking statements.