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We bundled all the necessary hard- and software components to bring your analyser up to date, as well as making sure you‘ll be PEAK compatible for the upcoming software launch.

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Kimura K. et al report a single-molecule investigation of electroluminescence using a scanning tunnelling microscope and demonstrate a simple method of selective formation of T1 excitons that utilises a charged molecule. All experiments were conducted using a LT STM operating at 4.7 K under ultrahigh vacuum.

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Scienta Omicron´s Materials Innovation Platform (MIP) is to integrate instrumentation for growth and detailed characterisation of samples in-situ. Not only is sample cleanliness preserved by maintaining UHV conditions between instruments, but analysis and growth can be done at intermediate process steps and performed far more rapidly than if the instrumentation was separated. Scienta Omicron offers the broadest range of UHV surface chemical and structural analysis techniques that are fully integrated and interfaced by a single supplier.

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Scienta Omicron is proud and excited that our Materials Innovation Platform (MIP) is facilitating world leading science at Penn State University, by enabling theory, synthesis and characterisation of chalcogenide layered materials to be conducted in a closed loop approach.

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