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Combining thermal scanning probe lithography and dry etching for grayscale nanopattern amplification.

Berke ErbasAna Conde-RubioXia LiuJoffrey PernolletZhenyu WangArnaud BertschMarcos PenedoGeorg Ernest FantnerMitali BanerjeeAndras KisGiovanni BoeroJuergen Brugger
Published in: Microsystems & nanoengineering (2024)
Grayscale structured surfaces with nanometer-scale features are used in a growing number of applications in optics and fluidics. Thermal scanning probe lithography achieves a lateral resolution below 10 nm and a vertical resolution below 1 nm, but its maximum depth in polymers is limited. Here, we present an innovative combination of nanowriting in thermal resist and plasma dry etching with substrate cooling, which achieves up to 10-fold amplification of polymer nanopatterns into SiO 2 without proportionally increasing surface roughness. Sinusoidal nanopatterns in SiO 2 with 400 nm pitch and 150 nm depth are fabricated free of shape distortion after dry etching. To exemplify the possible applications of the proposed method, grayscale dielectric nanostructures are used for scalable manufacturing through nanoimprint lithography and for strain nanoengineering of 2D materials. Such a method for aspect ratio amplification and smooth grayscale nanopatterning has the potential to find application in the fabrication of photonic and nanoelectronic devices.
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