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electrochemical mechanisms responsible for this extension remain poorly understood. The objective of this PhD project is therefore to explore and model the interactions between MnO₂ and ionic liquids, combining
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the perspective of cell, tissue and organ mechanics/dynamics and mechanical signal transduction. The institute operates according to a fully integrated open laboratory philosophy, with an extensive infrastructure
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in vacuum using a laser focused through a high numerical aperture objective. The laser produces an optical force equivalent to a mechanical spring, and the system can be regarded as a mass-spring
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serotonergic structure involved in the descending pain control mechanisms) in nociceptive and aversive responses, as well as its involvement in the comorbidity with mood disorders, using a murine neuropathic
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mechanisms [1–3]. By leveraging conformal radiating structures and wavefront shaping methodologies, we have achieved unprecedented power delivery performance to deep-body bioelectronic devices, overcoming
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regime is the most interesting for an industrial application and the main mechanisms of stabilization and pollutant reduction by discharges to enable a future implementation of the technology. AMMONIA
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recombination within asexual lineages. These patterns may further be complicated by evolution within asexual lineages, involving mechanisms similar to those involved in the evolution of sex-chromosomes, in