Microstructure and physical properties of black-aluminum antireflective films

Cinthia Antunes Corrêa; Joris More-Chevalier; Petr Hruška; Morgane Poupon; Michal Novotný; Peter Minárik; Pavel Hubík; František Lukáč; Ladislav Fekete; Dejan Prokop; Jan Hanuš; Jan Valenta; Přemysl Fitl; Ján Lančok

doi:10.1039/d4ra00396a

Microstructure and physical properties of black-aluminum antireflective films

RSC Adv. 2024 May 10;14(22):15220-15231. doi: 10.1039/d4ra00396a.

Authors

Cinthia Antunes Corrêa^{1

2}, Joris More-Chevalier¹, Petr Hruška^{1

2}, Morgane Poupon¹, Michal Novotný¹, Peter Minárik², Pavel Hubík¹, František Lukáč³, Ladislav Fekete¹, Dejan Prokop^{1

2}, Jan Hanuš², Jan Valenta², Přemysl Fitl^{1

4}, Ján Lančok¹

Affiliations

¹ Institute of Physics of the Czech Academy of Sciences Na Slovance 1999/2 182 00 Prague 8 Czech Republic correa@fzu.cz morechevalier@fzu.cz hruskap@fzu.cz poupon@fzu.cz novotnym@fzu.cz hubik@fzu.cz fekete@fzu.cz prokopdejan@gmail.com lancok@fzu.cz.
² Charles University, Faculty of Mathematics and Physics Ke Karlovu 2027/3 121 16 Prague 2 Czech Republic peter.minarik@matfyz.cuni.cz Jan.Hanus@matfyz.cuni.cz jan.valenta@matfyz.cuni.cz.
³ Institute of Plasma Physics of the Czech Academy of Sciences Za Slovankou 1782/3 182 00 Prague 8 Czech Republic lukac@ipp.cas.cz.
⁴ University of Chemistry and Technology, Department of Physics and Measurements Technická 5 166 28 Prague 6 Czech Republic fitlp@vscht.cz.

Abstract

The microstructure and physical properties of reflective and black aluminum were compared for layers of different thicknesses deposited by magnetron sputtering on fused silica substrates. Reflective Al layers followed the Volmer-Weber growth mechanism classically observed for polycrystalline metal films. On the contrary, the extra nitrogen gas used to deposit the black aluminum layers modified the growth mechanism and changed the film morphologies. Nitrogen cumulated in the grain boundaries, favoring the pinning effect and stopping crystallite growth. High defect concentration, especially vacancies, led to strong columnar growth. Properties reported for black aluminum tend to be promising for sensors and emissivity applications.