What does this research mean for the field?

Printed films of NbSi₂ exhibit metallic resistivity and are fabricated using a cost-effective printing technique. Novelty: ClaimNovelty.METHODOLOGICAL. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This research aims to explore a cost-effective method for fabricating NbSi₂ films using a printing technique.

February 28, 2026Open Access

Fabrication of Disilicide Films Prepared by a Printing Technique

Key Points

This research aims to explore a cost-effective method for fabricating NbSi₂ films using a printing technique.
Synthesize polycrystalline NbSi₂ powder via solid-state reaction.
Mix NbSi₂ powder with polyamic acid to create a slurry.
Print the slurry onto silicon substrates and dry at room temperature.
Measure the resistivity of the printed films using Van der Pauw technique.
The printed films exhibit single-phase polycrystalline NbSi₂.
Average thickness of the films is approximately 60 μm.
Surface roughness measured at 2 μm indicates a smooth finish.
Van der Pauw measurements showed metallic resistivity in the printed films.

Abstract

We demonstrate a cost-effective route for fabricating printed films of NbSi₂, a crystallographically chiral compound. Polycrystalline NbSi₂ powder was synthesized via a solid-state reaction and mixed with polyamic acid to produce a homogeneous slurry. The resulting slurry was printed onto Si substrates and subsequently dried at room temperature. The printed films consisted of single-phase polycrystalline NbSi₂ with a thickness of approximately 60 μm and a surface roughness of 2 μm. The Van der Pauw measurements revealed metallic resistivity of printed films.

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Fabrication of Disilicide Films Prepared by a Printing Technique

Key Points

Abstract

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