This year saw the launch of an ambitious new pan-European program to push the envelope on tabletop ultrafast X-ray spectroscopy. To this end, we develop new ultrafast spectroscopic methods based on basic knowledge on the light-matter interaction and state-of-the-art laser technology. Ultrafast two-dimensional infrared (2D-IR) spectroscopy has provided valuable insights into biomolecular structure and dynamics, but recent progress in laser technology and data analysis methods have demonstrated the potential for high throughput 2D … It is shown that crucial challenges in the computational spectroscopy of astroCOMs can be successfully overcome by combining state‐of‐the‐art quantum‐mechanical approaches with ad hoc treatments of the nuclear motion, thus demonstrating that the rotational and vibrational features can be predicted with the proper accuracy. Rechargeable Magnesium–Sulfur Battery Technology: State of the Art and Key Challenges. The Horizon 2020–funded Innovative Training Network on the Study of carrier transport in MAterials by time-Resolved specTroscopy with ultrashort soft X-ray light—which goes by the much more manageable nickname SMART-X—aims to create a … Open Access. Ultrafast Spectroscopy of Photoactive Materials and Biomolecules Researchers in the Kohler group investigate the photophysical and photochemical dynamics of excited electronic states in photoactive materials and biomolecules using state-of-the-art femtosecond laser spectroscopic techniques. In this review we aim to provide a comprehensive and state-of-the-art review of fNIRS basics, technical developments, and applications. This Special Issue aims to showcase the current state-of-the-art research activities using advanced ultrafast X-ray spectroscopies employing both soft and hard pulsed X-radiation. FEIS 2013, the first in this series, was organized with the goal of initiating conversation between different communities with the objective of reviewing the current state-of-the-art development and open issues of ultrafast electron imaging technologies, and to assess emerging scientific opportunities enabled by ultrafast imaging and spectroscopy. The Lian group develops and applies state-of-the-art ultrafast and nonlinear spectroscopy techniques for the study of these interfacial dynamics in situ under photocatalytic, photoelectrochemical and electrocatalytic conditions (see the Technique page for details). Peiwen Wang. This review summarizes the state-of-the-art knowledge in designing concepts, integrated configurations and overall performances of different types of solar-driven hybrid energy units. Find out more about the group members and their research Welcome to the Ultrafast Optoelectronics Group website. 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