Technology Finder

Systems, results, application notes and installations based on 85 technologies.


Services & Support

500-plus spare parts and upgrades for your system.

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Research Results

Research results obtained with Scienta Omicron products.



Scienta Omicron Systems in-use around the world.


Materials Innovation Platform (MIP)

Accelerating the Pace of Discovery.

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Nobel Prize Technologies Supporting Science and Industry 

Electron Spectroscopy

Electron Analyser DA30-L-8000 | © Scienta Omicron

Scanning Probe Microscopy

SPM Component  | © Scienta Omicron

Thin Film Deposition

Thin Film Deposition Component  | © Scienta Omicron

Result of the Month (ROM), March 2021

Inelastic Background Modelling Applied to Hard X-ray Photoelectron Spectroscopy of Deeply Buried Layers

In this work, Ben Spencer et al investigate layers of an organic LED material buried deeply below up to 200 nm of organic material using HAXPES (hv > 9 keV). To gain information from deep below the surface using photoelectron spectroscopy, they model the inelastic background originating from Ir 3d photoelectrons at ~ 2000 eV binding energy. The methodology is applied to both synchrotron and Scienta Omicron HAXPES Lab system, where data taken at Diamond Light Source also helped to benchmark the HAXPES Lab system.

Service Upgrade

SXM Trade In for SCALA SPM Controllers

The new SXM Control System comprises state-of-the-art electronics and software solutions for Scanning Probe Microscopy (SPM). The SXM hardware features low noise, large detection bandwidth, configurable A/D and D/A converters, integrated digital Lock In amplifiers. The SXM software offers standard SPM modes as well as advanced spectroscopy and manipulation experiments. A dedicated interface readily supports a variety of our established Scienta Omicron SPM products. 

Latest News

NREL MBEs to Grow 2D Materials, Intermetallic Compounds, and Semiconductors

The Materials Physics research group at the National Renewable Energy Laboratory (NREL) develops semiconductors for energy-relevant applications, including photovoltaics and solid-state lighting. The group uses two connected EVO-25 MBE systems from Scienta Omicron. The System platforms are suitable for a large range of MBE applications such as the growth of 2D materials, intermetallic compounds, oxide heterostructures or semiconductors.

Researcher Spotlight: Amalia Patanè

Atomic Layer Semiconductors Poised to Change Our Lives

Semiconductor physics is on the cusp of a revolution. Ultra-thin crystals may take the place of today’s ever-present silicon semiconductors and may transform many applications. However, you have to be able to build them first. Professor Amalia Patanè is heading a project that aims to do just that.

Scienta Omicron News Fall 2020

The Fall 2020 edition of the Scienta Omicron Newsflyer provides you with an update about our response to COVID-19, updated product offerings to suit our customers´ research needs, and information about services and support we have available.  

In our Newsflyer you can read more about Scienta Omicron's activities and achievements over the past six months.

About Us 

Scienta Omicron is a leading innovator in Surface Science and Nanotechnology. At our technology centres in Uppsala, Sweden and Taunusstein, Germany we develop and produce high-tech instruments sold and serviced from our four regional hubs in USA, China, Japan and Germany to support top researchers globally.

We provide top capabilities in Electron Spectroscopy, Scanning Probe Microscopy and Thin Film Deposition, all in Ultra-High Vacuum. Focusing on the race for new unique materials and solutions, in areas like – smarter batteries, next generation electronics, quantum technologies, solar energy, intelligent sensors and advanced materials, Scienta Omicron drives the Surface Science towards the future.