Casillas Rubio, AlejandroLaurenti, MarcoCascales, Juan PedroGómez Calderón, ÓscarMéndez González, Diego2025-07-162025-07-162025-06A. Casillas-Rubio, M. Laurenti, J. P. Cascales, O. G. Calderón, D. Mendez-Gonzalez, S. Melle, Wireless Nano Irradiance Meter Based on Upconversion Luminescence Lifetime. Adv. Optical Mater. 2025, 2500093. https://doi.org/10.1002/adom.20250009310.1002/adom.202500093https://hdl.handle.net/20.500.14352/122560Measuring light irradiance, or power density, within a material is essential for ensuring the precision, efficiency, and safety of light-based technologies, such as photodynamic therapies, optical sensing, and material processing. However, this task becomes particularly challenging in scenarios involving highly scattering or absorbing media, dynamic systems with varying properties, or confined and hardly accessible compartments. These challenges can be addressed by using colloidal luminescent nanomaterials with luminescence lifetimes strongly dependent on excitation irradiance. Building on this, an upconversion lifetime-based Nano Irradiance Meter (nIM) is proposed, employing, on SrYb3 +F5: @CaF2 upconverting nanoparticles. This nIM operates within the first biological window and allows the direct estimation of laser irradiance, without prior knowledge of the area illuminated by the excitation beam. The feasibility of the sensor is validated through a calibration process, correlating the lifetime of the 770 nm upconversion luminescence of Tm3 + ions with the 967 nm excitation irradiance. The sensor achieved a sensitivity of 0.9% W−1 cm2 at low irradiances (≈17 W cm−2) and 0.008% W−1 cm2 at high irradiances (≈5 kW cm−2), surpassing previously reported results based on ratiometric luminescence approaches. Finally, its robust performance under real-life conditions across various media is demonstrated.engAttribution-NonCommercial-ShareAlike 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-sa/4.0/journal articlehttps://doi.org/10.1002/adom.202500093open access617.75LifetimeLanthanide nanoparticlesNanoirradiance meterPower meterUpconversion luminescenceÓptica y optometría2209 Óptica