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Sonja Pullen
Researcher at Technical University of Dortmund
Publications - 30
Citations - 1419
Sonja Pullen is an academic researcher from Technical University of Dortmund. The author has contributed to research in topics: Catalysis & Ligand. The author has an hindex of 14, co-authored 26 publications receiving 1031 citations. Previous affiliations of Sonja Pullen include Max Planck Society & Uppsala University.
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Enhanced Photochemical Hydrogen Production by a Molecular Diiron Catalyst Incorporated into a Metal–Organic Framework
TL;DR: Improved catalytic performance is ascribed to structural stabilization of the complex when incorporated in the MOF as well as the protection of reduced catalysts 1– and 12– from undesirable charge recombination with oxidized ascorbate.
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Mixed-Ligand Metal-Organic Frameworks and Heteroleptic Coordination Cages as Multifunctional Scaffolds-A Comparison.
Sonja Pullen,Guido H. Clever +1 more
TL;DR: If limitations can be overcome in the future, chemists will be able to design multifunctional systems of similar activity and complexity as nature’s enzymes from simple and easily accessible synthetic building blocks.
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Increasing structural and functional complexity in self-assembled coordination cages.
TL;DR: In this article, a review of the implementation of function into self-assembled cages and strategies to selectively form heteroleptic structures is presented, including multicomponent multifunctional host-guest complexes and their potential in application in areas such as sensing, catalysis, and photo-redox systems.
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Functionalization of robust Zr( iv )-based metal–organic framework films via a postsynthetic ligand exchange
TL;DR: A facile and efficient fabrication approach for homogeneous, crack-free UiO-66 films with exceptionally high crystallinity and tunable thickness on a transparent and conductive glass substrate is reported.
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Structural dynamics inside a functionalized metal–organic framework probed by ultrafast 2D IR spectroscopy
TL;DR: 2D IR spectroscopy with pulse-shaping techniques can probe the ultrafast structural fluctuations of MOFs and use 2D IR and other ultrafast IR methods to elucidate the timescales for ultra fast structural fluctuations and how they are influenced by a solvent filling the pores.