Five messages from the ERC project: “New Paradigm in Electrolyte Thermodynamics”
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Abstract
\nThis presentation will summarize some of the major results, in form of five messages, of this ERC project that has as overall target to arrive at a fundamental understanding of electrolyte thermodynamics and thus enable the engineering of a new generation of useful, physically sound models for electrolyte solutions.
\nThese models should be general and applicable to a wide range of conditions so that they can be potentially used for many applications.
\nThe aim is both to achieve a fundamental understanding of electrolyte thermodynamics but also ensure contact with stakeholders (industry, etc) where electrolyte thermodynamics is expected to be relevant and useful.
\nThe ambition is to make advances, which can clarify major questions and misunderstandings in electrolyte thermodynamics, and create a new paradigm that will ultimately pave the way for the development of new engineering models for electrolyte solutions.
\nThe behavior of electrolyte solutions is expected to be affected by the major solvent present, water, and thus the accurate description of water properties is also of paramount importance in electrolyte thermodynamics.
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Acknowledgement
\nWe are grateful to all colleagues, PhD students and researchers who have contributed to this research. We thank the European Research Council (ERC) for funding this research under the European Union’s Horizon 2020 research and innovation program (grant agreement No 832460), ERC Advanced Grant project “New Paradigm in Electrolyte Thermodynamics”.
\nFive messages from the ERC project: “New Paradigm in Electrolyte Thermodynamics”
\n\n
Abstract
\nThis presentation will summarize some of the major results, in form of five messages, of this ERC project that has as overall target to arrive at a fundamental understanding of electrolyte thermodynamics and thus enable the engineering of a new generation of useful, physically sound models for electrolyte solutions.
\nThese models should be general and applicable to a wide range of conditions so that they can be potentially used for many applications.
\nThe aim is both to achieve a fundamental understanding of electrolyte thermodynamics but also ensure contact with stakeholders (industry, etc) where electrolyte thermodynamics is expected to be relevant and useful.
\nThe ambition is to make advances, which can clarify major questions and misunderstandings in electrolyte thermodynamics, and create a new paradigm that will ultimately pave the way for the development of new engineering models for electrolyte solutions.
\nThe behavior of electrolyte solutions is expected to be affected by the major solvent present, water, and thus the accurate description of water properties is also of paramount importance in electrolyte thermodynamics.
\n\n
Acknowledgement
\nWe are grateful to all colleagues, PhD students and researchers who have contributed to this research. We thank the European Research Council (ERC) for funding this research under the European Union’s Horizon 2020 research and innovation program (grant agreement No 832460), ERC Advanced Grant project “New Paradigm in Electrolyte Thermodynamics”.
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