.Apply Download PDFThe mission of the Catalan Institute of Nanoscience and Nanotechnology (ICN2) is to achieve the highest level of scientific and technological excellence in Nanoscience and Nanotechnology.Its research lines focus on the newly-discovered physical and chemical properties that arise from the behaviour of matter at the nanoscale.ICN2 has been awarded with the Severo Ochoa Center of Excellence distinction for three consecutive periods (2014-2018 and 2018-2022 and 2023-2026).ICN2 comprises 19 Research Groups, 7 Technical Development and Support Units and Facilities, and 2 Research Platforms, covering different areas of nanoscience and nanotechnology.Job Title : Postdoctoral ResearcherResearch area or group : Nanostructured Materials for Photovoltaic Energy GroupDescription of Group / Project :PV applications have the potential to expand even more by using built-in photovoltaics in the city architecture currently unexploited; e.G. façades, windows, bus stop roofs, or sunshades. The application of low 1 cost photovoltaics with moderate efficiencies in all these -now unused 1 areas would provide a substantial sun-harvested energy intake for powering the city.Nevertheless, the energy transition of large transport or heavy industry cannot be sustained by electricity, and thus requires high power density fuel alternatives such as hydrogen.Developing technologies for green H2 generation is thus another 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-cost) setup of semiconductor electrodes immersed in water using solely direct sunlight to generate O2 and H2.Practical applications of PEC-WS have been so far limited by the lack of available semiconductors that meet the four basic requirements : high photovoltage and photocurrents, good energy alignment with redox potentials and stability against corrosion.The development of semiconductors to improve PV and PEC-WS is now a matter of intense research. In this context, "CABIS-Sol" aims to develop a novel semiconductor material platform based on abundant non-toxic elements that can be tailored "on-demand" for PV and PEC-WS applications.To achieve that we will exploit the versatility of a particular metal halide system, the copper-silver-bismuth iodosulphates (CABIS) by designing new strategies for a controlled synthesis of tailored chemical composition to finely tune the material optoelectronic properties.This will be achieved by designing new solution-based synthesis approaches for fine control of the elemental composition and crystal structure to tune the bandgap and energy level positions.The CABIS stability will be improved by implementing intrinsic (chemical composition, molecular additives) and extrinsic (physical barrier or passivation by oxides) protection strategies