Abstract
Actual societal challenges require a vigorous progress on functional materials with improved functionalities [...]
Highlights
Crystals 2020, 10, 1066 fields as sensors, energy storage, photonics or catalysis
A complex coupling of optical and thermal mechanisms led to spatially resolved phase transitions, prompting the formation of various types of MoOx as well as different types of nano- and microstructures The appearance and distribution of such phases and morphologies are highly correlated to the used integrated laser fluence opening an experimental window for the controlled growth of such functional oxides in an easy and versatile way
Laser-induced forward transfer (LIFT) stands out as a method that allows the transfer of small volumes of material on receiving substrates by means of the spatially resolved laser irradiation of thin layer donors
Summary
Crystals 2020, 10, 1066 fields as sensors, energy storage, photonics or catalysis. By focusing 60 fs laser pulses, the authors irradiated about 100 μm2 regions of crystalline Mo films in air with different irradiation times and laser fluence conditions, always below the ablation threshold of Mo. Laser-induced forward transfer (LIFT) stands out as a method that allows the transfer of small volumes of material on receiving substrates by means of the spatially resolved laser irradiation of thin layer donors.
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