Electrochemistry
…to discuss electrolyte compatibility Potentiostat Bio-Logic SP200. E range +/- 10V. I range +/- 500 mA. Glove box A custom glove box can be attached to allow handling/loading of samples…
…to discuss electrolyte compatibility Potentiostat Bio-Logic SP200. E range +/- 10V. I range +/- 500 mA. Glove box A custom glove box can be attached to allow handling/loading of samples…
The solid-state end station (SSES) is designed for studying solid-state material via advanced experimental techniques in an ultra-high vacuum (UHV) environment. The end station is composed of four UHV chambers…
…in late 1990-ies. Despite seemingly old, it is still competitive with the brand-new AFMs in terms of high-resolution topography determination. It is capable of both contact and tapping modes, allowing…
…OMNY pin sample holders for the NanoMAX Imaging Station. Left: sample pins compatible usable at the NanoMAX imaging station. Sample preparation and mounting is essential for a successful beamtime. Discuss…
The Design Office team consists of the following people Design Office Common contact Office location: D110053 E-mail: mechanical@maxiv.lu.se Joaquin Gonzalez E-mail: joaquin.gonzalez@maxiv.lu.se Phone: +46462226511 Linus Roslund Mechanical designer Office location:…
The Technical Infrastructure team is part of Engineering II and is in charge of Cooling, Ventilation, Compressed air, Cryo and gas systems. The team supports the entire MAX IV laboratory…
…materials research as part of a recently completed project funded by Vetenskapsrådet (DNR: 2018-06378). The project has focused on tackling challenges that limit the industrial use of these types of…
…Photoluminescence end station E-mail: Kirill.Chernenko@maxiv.lu.se Phone: +46462226584 Weimin Wang Research Engineer Responsibilities: Solid-state end station E-mail: weimin.wang@maxiv.lu.se Phone: +46462226574 Calle Preger Postdoc Responsibilities: Development and commissioning of Aerodynamic lens sample…
…atomic structure compared to bulk versions of the same material. The research reported the first observation that nanosizing a material can make the atomic structure go from crystalline to amorphous. …
…discovered that while the zigzag graphene nanoribbon monolayer sank almost completely into a silicon carbide facet, its lower edge dissolved and mixed with the silicon carbide substrate. The researchers highlighted…