Temperature-driven morphological and microstructural changes of gold nanoparticles prepared by aggregation from the gas phase.ACS Omega, 10(21):22052–22061, 2025

Tereza Koˇ sutov´ a, Zdenˇ ek Krtouˇ s, Jaroslav Kousal, Ondˇ rej Kyli´ an, Jan Hanuˇ s, Lidia Mart´ ınez, Yves Huttel, Daniil Nikitin, Pavel Pleskunov, Hynek Biederman, Luk´ aˇ s Hor´ ak, Milan Dopita · 2025

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Suppressing Plasmonic Heating in Aqueous Environments with Hexagonal Boron Nitride

physics.optics · 2026-05-01 · unverdicted · novelty 5.0

Hexagonal boron nitride flakes reduce plasmonic heating of gold nanospheres in water by up to 60% relative to glass, with heat dissipation limited by flake thickness and interfacial conductance.

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Suppressing Plasmonic Heating in Aqueous Environments with Hexagonal Boron Nitride physics.optics · 2026-05-01 · unverdicted · none · ref 57
Hexagonal boron nitride flakes reduce plasmonic heating of gold nanospheres in water by up to 60% relative to glass, with heat dissipation limited by flake thickness and interfacial conductance.

Temperature-driven morphological and microstructural changes of gold nanoparticles prepared by aggregation from the gas phase.ACS Omega, 10(21):22052–22061, 2025

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