In this review we discuss the evolution of surface plasmon resonance and localized surface plasmon resonance based
hydrogen sensors. We put particular focus on how they are used to study metal-hydrogen interactions at the nanoscale,
both at the ensemble and the single nanoparticle level. Such efforts are motivated by a fundamental interest in
understanding the role of nanosizing on metal hydride formation processes. However, nanoplasmonic hydrogen sensors
are not only of academic interest but may also find more practical use as all-optical gas detectors in industrial and
medical applications, as well in a future hydrogen economy, where hydrogen is used as a carbon free energy carrier.
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