The combination of spectroscopic techniques with quantum chemistry and high-level computation is a fundamental component of modern molecular sciences. This powerful synergy drives cutting-edge research in fields ranging from inorganic chemistry to biochemistry and from catalysis to energy research. The summer school focuses particularly on how this combination is used in transition metal chemistry. Its goal is to provide young scientists with the fundamental knowledge and practical skills required to achieve this synergy in their own work. The school is addressed to graduate students, post-doctoral scientists, and researchers who want to understand how molecular theory and spectroscopy relate, who wish to enrich their studies, or who plan to expand their research into new challenging directions. The format of the school is equally appropriate for experimentalists who wish to incorporate theoretical input in their own research, and for participants who already have a background in computational chemistry and wish to learn how theory is used for predicting spectroscopic properties.
Topics: spectroscopy, quantum chemistry, molecular sciences, biochemistry, catalysis, transition metal chemistry, graduate students, post-doctoral scientists