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Subject description Physical Chemistry involves research relating to molecular issues. The experimental and theoretical methods used often originate from physics. The emphasis in Physical Chemistry
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and sectoral gaps in biological imaging ranging from molecular, through cellular, to tissue, organ and organism levels of organisation, and is coordinated by LINXS Institute of advanced Neutron and X
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Analytical Chemistry, and with competitive funding from the ERC and the Swedish Research Council. In connection with the projects described below, we have identified a need to recruit one to two postdoctoral
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scientific and sectoral gaps in biological imaging ranging from molecular, through cellular, to tissue, organ and organism levels of organisation, and is coordinated by LINXS Institute of advanced Neutron and
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develop the techniques and instrumentation, which are used by researchers from magnetism and chemistry to biomedical and environmental science. For information on the beamline, see: SoftiMAX Description
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self-assembly is used to organize nanoscale building blocks into hierarchical structures that exhibit collective properties such as superradiance, superfluorescence, and enhanced exciton transport
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collaborations with various users and beamline staff, and pursue your own research and/or development projects. You will have an opportunity to conduct your own research with the STM system available at MAX IV
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space and time: with help of microfluidic soil chips and an advanced access system for microscopy and spectroscopy we will access natural soil microbial communities to answer questions about their