Liang Fei, Helen Hölzel, Zhihang Wang, Andreas Erbs Hillers-Bendtsen, Adil S. Aslam, Monika Shamsabadi, Jialing Tan, Kurt V. Mikkelsen, Chaoxia Wang and Kasper Moth-Poulsen
Chem. Sci., 2024,15, 18179-18186
From themed collection:
Conference collection: 6th ERC Grantees Conference 2025
Abstract
A series of two-way photoswitching norbornadiene derivatives is designed for efficient and robust energy conversion. A flow MOST device and MOST films demonstrate optically controlled energy release in solution and solid state, respectively.
Pei Li, Ruichen Liu, Cong Li, Li Wang, Xiangwen Zhang and Guozhu Li
Sustainable Energy Fuels, 2025,9, 2316-2326
From themed collection:
Sustainable Energy & Fuels 2025 HOT Articles
Abstract
exo–exo-Hexacyclo[9.2.1.02,10.03,7.04,9.06,8]tetradec-12-ene (exo–exo) is one of the few liquid fuels with a density higher than 1 g mL−1.
Rebecca J. Salthouse and Kasper Moth-Poulsen
J. Mater. Chem. A, 2024,12, 3180-3208
From themed collection:
Molecular Photoswitches for Energy storage
Abstract
In the context of energy storage, multichromophoric systems may offer additional functionality over monosubstituted analogues due to their potential to access multiple states as well as having more attractive physical properties.
Yuhan Wang, Mohsin Pasha, You Ma, Guozhi Qian, Minjing Shang and Yuanhai Su
React. Chem. Eng., 2025,10, 2633-2643
From themed collection:
Celebrating the 130th anniversary of Tianjin University.
Abstract
A solvent-free, green, sustainable, auto-switching quadricyclane production and zero-order kinetic study platform.
Benjamin Rollins, Alberto Gimenez-Gomez, Andrew M. Steele, Helen Hölzel, Rebecca J. Salthouse, Kevin Moreno, Kasper Moth-Poulsen, Ignacio Funes-Ardoiz and Diego Sampedro
Catal. Sci. Technol., 2025,15, 3837-3847
From themed collection:
Emerging Investigator Series
Abstract
A series of heterogeneous catalysts, based on Pt and Au, have been developed for MOlecular Solar Thermal (MOST) system energy release. Low oxidation states as well as a reduced support, such as carbon, are key to a rapid back-conversion reaction.