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Near-Field Induced Reaction Yields from Nanoparticle Clusters

Philipp Rosenberger, Philipp Rupp, R. Ali, M. Said Alghabra, Shaohua Sun, Sambit Mitra, Sharjeel Ahmed Khan, Ritika Dagar, Vyacheslav V. Kim, Mazhar Iqbal, Johannes Schötz, Qingcao Liu, S. K. Sundaram, Julia Kredel, Markus Gallei, César Costa Vera, Boris Bergues, Ali S. Alnaser, Matthias F. Kling

2020ACS Photonics26 citationsDOI

Abstract

Ultrafast light-induced molecular reactions on aerosolized nanoparticles may elucidate early steps in the photoactivity of nanoparticles with potential impact in fields ranging from chemistry and medicine to climate science. In situ morphology discrimination for nanoparticle streams when measuring light-induced reaction yields is crucial, but lacking. Here, we experimentally demonstrate, using the reaction nanoscopy technique, that proton momenta from deprotonation reactions induced by intense femtosecond pulses exhibit clear, distinguishable signatures for single silica nanospheres and their clusters. Our findings are supported by classical trajectory Monte Carlo simulations. The results demonstrate an in situ single-shot discrimination method between reaction yields from photoinduced processes on single particles and their clusters. We find that the ionization of clusters dominates at sufficiently low intensities, providing an explanation to resolve previously observed discrepancies between experimental data and theoretical treatments, which considered only single nanoparticles.

Topics & Concepts

NanoparticleFemtosecondIonizationChemical physicsMaterials scienceDeprotonationMonte Carlo methodNanotechnologyProtonUltrashort pulseMolecular physicsPhotochemistryLaserChemistryPhysicsOpticsIonNuclear physicsMathematicsStatisticsOrganic chemistryAtmospheric chemistry and aerosolsAtmospheric aerosols and cloudsSpectroscopy and Laser Applications
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