ÇAKICI, T. Et Al. 2023. Surface activation of Si-based Schottky diodes by bacterial biosynthesized AgInSe2 trimetallic alloy nanoparticles with evidenced negative capacitance and enhanced electro-dielectric performance. APPLIED SURFACE SCIENCE , vol.631 .

ÇAKICI, T., Ajjaq, A., ÇAĞIRTEKİN, A. O., Barin, Ö., ÖZDAL, M., & ACAR, S., (2023). Surface activation of Si-based Schottky diodes by bacterial biosynthesized AgInSe2 trimetallic alloy nanoparticles with evidenced negative capacitance and enhanced electro-dielectric performance. APPLIED SURFACE SCIENCE , vol.631.

ÇAKICI, Tuba Et Al. "Surface activation of Si-based Schottky diodes by bacterial biosynthesized AgInSe2 trimetallic alloy nanoparticles with evidenced negative capacitance and enhanced electro-dielectric performance," APPLIED SURFACE SCIENCE , vol.631, 2023

ÇAKICI, Tuba Et Al. "Surface activation of Si-based Schottky diodes by bacterial biosynthesized AgInSe2 trimetallic alloy nanoparticles with evidenced negative capacitance and enhanced electro-dielectric performance." APPLIED SURFACE SCIENCE , vol.631, 2023

ÇAKICI, T. Et Al. (2023) . "Surface activation of Si-based Schottky diodes by bacterial biosynthesized AgInSe2 trimetallic alloy nanoparticles with evidenced negative capacitance and enhanced electro-dielectric performance." APPLIED SURFACE SCIENCE , vol.631.

@article{article, author={Tuba ÇAKICI Et Al. }, title={Surface activation of Si-based Schottky diodes by bacterial biosynthesized AgInSe2 trimetallic alloy nanoparticles with evidenced negative capacitance and enhanced electro-dielectric performance}, journal={APPLIED SURFACE SCIENCE}, year=2023}