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strategic priority to substitute the current H2 sources from methane or coal (which release CO2). Photoelectrochemical water splitting (PEC-WS) is a promising technology to enable this target: a simple (low
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Materials and Devices (AEMD) group focuses on the material sciences and technology aspects of novel electronic materials, with a strong emphasis on graphene as well as other 2D materials (MoS2). The group
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broad experience in the development of electronic structure methods and their application in order to perform atomistic simulations of molecules and materials. These include (but are not restricted
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Chemistry Description of Group/Project: The NanoElectrocatalysis Group combines electrochemistry, materials engineering and in situ characterisation at the atomic scale to elucidate design principles
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Chemistry Description of Group/Project: The NanoElectrocatalysis Group combines electrochemistry, materials engineering and in situ characterisation at the atomic scale to elucidate design principles
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responsibilities: Design of the air-filtering system. Nanofabrication of the air filtering systems, which include nanostructuration and chemical and physical deposition of the active layers. Structural
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broad experience in developing electronic structure methods and their application to perform atomistic simulations of molecules and materials. These include (but are not restricted to) SIESTA (www.siesta
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Spectroscopy Group Description of Group/Project: The AMS group focus on the atomic-scale engineering of the quantum properties of novel nanomaterials. Our aim is to understand and control quantum phenomena with
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with in situ characterisation techniques such as infrared and Raman spectroscopy and synchrotron-based structural characterisation methods. This combination will be used to investigate the structure
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experience in the development of electronic structure methods and their application in order to perform atomistic simulations of molecules and materials. These include (but are not restricted to) SIESTA