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content in the electrolyte, is a very promising strategy for controlling important electrochemical reactions, such as CO2 reduction and water splitting. However, the molecular mechanisms leading
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control strategies to control reaction mechanisms on demand. Such reactions include the reduction of CO2 or the splitting of water to generate H2. This thesis will rely on electrochemical, crystallography
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energy source, both for its energy storage capacity and for its green production when it comes from water splitting, especially if the primary energy is renewable. One of the main difficulties in
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