D
Daniel Ruiz-Molina
Researcher at Spanish National Research Council
Publications - 215
Citations - 9263
Daniel Ruiz-Molina is an academic researcher from Spanish National Research Council. The author has contributed to research in topics: Valence (chemistry) & Molecule. The author has an hindex of 38, co-authored 203 publications receiving 8135 citations. Previous affiliations of Daniel Ruiz-Molina include University of Amsterdam & University of California, San Diego.
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Old materials with new tricks: multifunctional open-framework materials.
TL;DR: This critical review provides an up-to-date survey to this new generation of multifunctional open-framework solids, classified into five different sections: magnetic, chiral, conducting, optical, and labile open-frameworks for sensing applications.
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Catechol-Based Biomimetic Functional Materials
TL;DR: It is shown that catechols can be found either as simple molecular systems, forming part of supramolacular structures, coordinated to different metal ions or as macromolecules mostly arising from polymerization mechanisms through covalent bonds.
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A nanoporous molecular magnet with reversible solvent-induced mechanical and magnetic properties
Daniel Maspoch,Daniel Ruiz-Molina,Klaus Wurst,Neus Domingo,M. Cavallini,Fabio Biscarini,Javier Tejada,Concepció Rovira,Jaume Veciana +8 more
TL;DR: MOROF-1 shows a reversible and highly selective solvent-induced 'shrinking–breathing' process involving large volume changes that strongly influence the magnetic properties of the material, which could be the first stage of a new route towards magnetic solvent sensors.
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The Chemistry behind Catechol-Based Adhesion
TL;DR: The aim of this Review is to present recent investigations that elucidate the origin of the strong and versatile adsorption capacities of the catechol moiety and the effects of extrinsic factors that play important roles in the overall adhesion process, such as pH value, solvent, and the presence of metal ions.
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Magnetic nanoporous coordination polymers
TL;DR: The use of organic molecules as an alternative strategy for achieving new nanoporous metal-organic materials has become an attractive prospect as mentioned in this paper, and the use of transition metal ions opens the possibility to obtain nanoporous materials with additional electrical, optical or magnetic properties.