Dein Suchergebnis zum Thema: Finken

The search for new energy sources to power mankind’s increasing needs is currently a topic of immense interest. Hydrogen-powered fuel cells are considered one of the most promising clean energy alternatives. While intensive research efforts have gone into developing ways to harness hydrogen energy to fuel our everyday lives, a natural example of a living hydrogen-powered ‘fuel cell’ has gone unnoticed. During a recent expedition to hydrothermal vents in the deep sea, researchers from the Max Planck Institute of Marine Microbiology and the Cluster of Excellence MARUM discovered mussels that have their own on-board ‘fuel cells’, in the form of symbiotic bacteria that use hydrogen as an energy source. Their results, which appear in the current issue of Nature, suggest that the ability to use hydrogen as a source of energy is widespread in hydrothermal vent symbioses.
Wankel, Valerie Barbe, Eric Pelletier, Dennis Fink, Christian Borowski, Wolfgang

The search for new energy sources to power mankind’s increasing needs is currently a topic of immense interest. Hydrogen-powered fuel cells are considered one of the most promising clean energy alternatives. While intensive research efforts have gone into developing ways to harness hydrogen energy to fuel our everyday lives, a natural example of a living hydrogen-powered ‘fuel cell’ has gone unnoticed. During a recent expedition to hydrothermal vents in the deep sea, researchers from the Max Planck Institute of Marine Microbiology and the Cluster of Excellence MARUM discovered mussels that have their own on-board ‘fuel cells’, in the form of symbiotic bacteria that use hydrogen as an energy source. Their results, which appear in the current issue of Nature, suggest that the ability to use hydrogen as a source of energy is widespread in hydrothermal vent symbioses.
Wankel, Valerie Barbe, Eric Pelletier, Dennis Fink, Christian Borowski, Wolfgang

Erholung ist abhängig vom Informationsaustausch zwischen den Hemisphären
Fink und Christian Grefkes Degeneration of corpus callosum and recovery of motor

The search for new energy sources to power mankind’s increasing needs is currently a topic of immense interest. Hydrogen-powered fuel cells are considered one of the most promising clean energy alternatives. While intensive research efforts have gone into developing ways to harness hydrogen energy to fuel our everyday lives, a natural example of a living hydrogen-powered ‘fuel cell’ has gone unnoticed. During a recent expedition to hydrothermal vents in the deep sea, researchers from the Max Planck Institute of Marine Microbiology and the Cluster of Excellence MARUM discovered mussels that have their own on-board ‘fuel cells’, in the form of symbiotic bacteria that use hydrogen as an energy source. Their results, which appear in the current issue of Nature, suggest that the ability to use hydrogen as a source of energy is widespread in hydrothermal vent symbioses.
Wankel, Valerie Barbe, Eric Pelletier, Dennis Fink, Christian Borowski, Wolfgang

Beyond the immediate health risks of the Covid-19 pandemic, the containment measures it necessitates have brought with them a number of other stressors that can undermine individual and collective well-being. As part of an international research project, the Max Planck Institute for Empirical Aesthetics investigated whether musical engagement is an effective strategy for socio-emotional coping during lockdown.
Original publication Lauren Fink, Lindsay Warrenburg, Claire Howlin, William M.

Max-Planck-Forscher entdecken symbiotische Lebensgemeinschaft in der Tiefsee, die Energiegewinnung auf der Basis von Wasserstoff betreibt.
Wankel, Valerie Barbe, Eric Pelletier, Dennis Fink, Christian Borowski, Wolfgang

Beyond the immediate health risks of the Covid-19 pandemic, the containment measures it necessitates have brought with them a number of other stressors that can undermine individual and collective well-being. As part of an international research project, the Max Planck Institute for Empirical Aesthetics investigated whether musical engagement is an effective strategy for socio-emotional coping during lockdown.
Original publication Lauren Fink, Lindsay Warrenburg, Claire Howlin, William M.

Die Maßnahemn zur Eindämmung der Covid-19-Pandemie haben zu vielfältigen Stressfaktoren geführt. Ein internationales Forschungsprojekt unter Beteiligung des Max-Planck-Instituts für empirische Ästhetik im Jahr 2020 untersucht, ob der Umgang mit Musik eine wirksame Strategie für die sozio-emotionale Bewältigung des Lockdowns war.
Originalveröffentlichung Lauren Fink, Lindsay Warrenburg, Claire Howlin, William

Fast die Hälfte aller Lungenkrebs-Patienten im fortgeschrittenen Stadium entwickeln arteriellen Lungenhochdruck
Fink, S. Gattenlöhner, U. Rapp, R. Schermuly, F. Grimminger, W. Seeger, R.

Wissenschaftliche Publikationen – MPI für chemische Physik fester Stoffe
.; Fink, J.: Optical and acoustic plasmons in the layered material Sr2RuO4.