Nanoscale investigation of the reactivity of photocatalytic systems is crucial for their fundamental understanding and improving their design and applicability. Here, we present a photochemical nanoscopy technique that unlocks the local spatial detection of molecular products during plasmonic hot-carrier-driven photocatalytic reactions with nanometric precision. By applying the methodology to Au/TiO2 plasmonic photocatalysts, we experimentally and theoretically determined that smaller and denser Au nanoparticle arrays present lower optical contribution with quantum efficiency in hot-hole-driven photocatalysis closely related to the population heterogeneity. As expected, the highest quantum yield from a redox probe oxidation is achieved at the plasmon peak. Investigating a single plasmonic nanodiode, we unravel the areas where oxidation and reduction products are evolved with subwavelength resolution (∼200 nm), illustrating the bipolar behavior of such nanosystems. These results open the way to quantitative investigations at the nanoscale to evaluate the photocatalytic reactivity of low-dimensional materials in a variety of chemical reactions.

CEET Nanotechnology Centre VŠB Technical University of Ostrava 17 Listopadu 2172 15 Ostrava Poruba 708 00 Czech Republic

Consorzio Interuniversitario Nazionale per la Scienza e Tecnologia dei Materiali via Giusti 9 Firenze 50121 Italy

Czech Advanced Technology and Research Institute Regional Centre of Advanced Technologies and Materials Department Palacký University Olomouc Šlechtitelů 27 Olomouc 78371 Czech Republic

Department of Chemistry and NIS Centre University of Turin Turin 10125 Italy

Department of Physics and Astronomy Nanoscale and Quantum Phenomena Institute Ohio University Athens Ohio 45701 United States

Institute of Fundamental and Frontier Sciences University of Electronic Science and Technology of China Chengdu 610054 China

Laboratory of Applied Electrochemistry Dipartimento di Chimica Università degli Studi di Milano via Golgi 19 Milano 20133 Italy

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