low 10 -8 torr range, can be used to carry out experiments at temperatures 400C at pressures ranging from 10 -8 to 700 torr. The only system of its kind in America, the new Qtac 100 High Sensitivity-Low Energy Ion Scattering (HS-leis) spectrometer system, complete with in situ pretreatment chambers, was recently installed at Lehigh University. Another goal in his work is to define the relationship between surface oxide structures and their various physical and chemical properties. His current research interests are in developing catalytic processes for the sustainable use of natural gas and biomass. The insight generated from this research has implications for metal oxide catalysts, ceramic materials, pigment materials, and electronic devices which find wide application in the pollution control industry, chemical industry, petroleum industry and the advanced materials industries. Symposium lectures, high-Sensitivity leis Principles Applications,. Scienta, eSCA-300 High Resolution-X-ray Photoelectron Spectrometer (HR-XPS) system, Lehigh University possesses unique and sophisticated surface characterization opportunities.
This new machine utilizes a unique double toroidal electrostatic energy analyzer that provides 3,000 times higher sensitivity than conventional ion scattering spectrometers. VG, scienta, pES solutions,. VG, scienta s electron analysers under near ambient pressures which allows for research in areas such as energy, environmental science and biotechnology. Atomic Force Microscopy, prof. He obtained his. Omicron NanoTechnology has been the world's leading supplier of analytical instrumentation solutions in nanotechnology research and development for decades.
Company history, scienta, omicron was formed by the merger of two of the most renowned companies in the field of Surface Science: VG, scienta and Omicron NanoTechnology. He also performed XPS, ftir and EDS measurements of complex biomedical systems to investigate metal and metal oxide nanoparticle interactions with live cells. The company provides top capabilities for the research community through its technology leadership in electron spectroscopy, scanning probe microscopy and thin film deposition. Henrik Bergersen, vG, scienta, click here to download a copy of this presentation in PDF format. The company's technology solutions are used by a diverse range of customers worldwide to enhance the understanding and development of novel and advanced materials. Much of the structural information about surface oxides can be provided with modern laser Raman spectroscopy because of the dependence of the Raman spectrum on the structure of the scattering material.