Litcius/Paper detail

Microfabrication of X-ray Optics by Metal Assisted Chemical Etching: A Review

Lucia Romano, Marco Stampanoni

2020Micromachines52 citationsDOIOpen Access PDF

Abstract

High-aspect-ratio silicon micro- and nanostructures are technologically relevant in several applications, such as microelectronics, microelectromechanical systems, sensors, thermoelectric materials, battery anodes, solar cells, photonic devices, and X-ray optics. Microfabrication is usually achieved by dry-etch with reactive ions and KOH based wet-etch, metal assisted chemical etching (MacEtch) is emerging as a new etching technique that allows huge aspect ratio for feature size in the nanoscale. To date, a specialized review of MacEtch that considers both the fundamentals and X-ray optics applications is missing in the literature. This review aims to provide a comprehensive summary including: (i) fundamental mechanism; (ii) basics and roles to perform uniform etching in direction perpendicular to the <100> Si substrate; (iii) several examples of X-ray optics fabricated by MacEtch such as line gratings, circular gratings array, Fresnel zone plates, and other X-ray lenses; (iv) materials and methods for a full fabrication of absorbing gratings and the application in X-ray grating based interferometry; and (v) future perspectives of X-ray optics fabrication. The review provides researchers and engineers with an extensive and updated understanding of the principles and applications of MacEtch as a new technology for X-ray optics fabrication.

Topics & Concepts

MicrofabricationMaterials scienceFabricationEtching (microfabrication)X-ray opticsReactive-ion etchingOpticsMicroelectromechanical systemsMicroelectronicsDry etchingGratingNanotechnologyIsotropic etchingWaferSiliconOptoelectronicsPhysicsX-rayLayer (electronics)MedicinePathologyAlternative medicineNanowire Synthesis and ApplicationsPhotonic and Optical DevicesDiamond and Carbon-based Materials Research
Microfabrication of X-ray Optics by Metal Assisted Chemical Etching: A Review | Litcius