Electroforming as a New Method for Fabricating Degradable Pure Iron Stent

Abstract: The first example of a documented electroforming process dates back to 1837 when a layer of electrodeposited copper was found on the surface of a printing plate. Since then, it became a basic manufacturing process to produce delicate metallic components such as nickel thin foils for solar panels, perforated screenprinting cylinders used for fabric and carpet printings, digital recording devices, etc. Recently, electroforming is used for the fabrication of iron-based materials designed for cardiovascular stents… Show more

“…[3] Although these semiconductor processes produce high-quality nanostructures, they acquire high cost and have limitations in scaling up the size. Meanwhile, self-assembly methods [25][26][27][28] utilizing various building blocks such as block copolymers and colloids have been adopted to reproduce periodic biomimetic structures. However, there exist the issues associated with producing color materials with defect-free on a large scale.…”

“…By adjusting the thicknesses of the Bragg stack and the shape of the microscale texture, it is possible to selectively reflect a desired visible wavelength to reproduce structural colors. Especially, the Ni or Ni-Fe substrates fabricated by the electroforming method [28] can be used to produce the metal texture on a large scale in a mass production manner. This electroforming process can manufacture metallic products in fine A µm-scale Ni texture coated with a dielectric multilayer Bragg stack is developed to cost-effectively reproduce a variety of biomimetic structural colors on a large scale.…”

Reproduction of Biomimetic Structural Colors via µm‐Scale Ni Textures

“…[3] Although these semiconductor processes produce high-quality nanostructures, they acquire high cost and have limitations in scaling up the size. Meanwhile, self-assembly methods [25][26][27][28] utilizing various building blocks such as block copolymers and colloids have been adopted to reproduce periodic biomimetic structures. However, there exist the issues associated with producing color materials with defect-free on a large scale.…”

“…By adjusting the thicknesses of the Bragg stack and the shape of the microscale texture, it is possible to selectively reflect a desired visible wavelength to reproduce structural colors. Especially, the Ni or Ni-Fe substrates fabricated by the electroforming method [28] can be used to produce the metal texture on a large scale in a mass production manner. This electroforming process can manufacture metallic products in fine A µm-scale Ni texture coated with a dielectric multilayer Bragg stack is developed to cost-effectively reproduce a variety of biomimetic structural colors on a large scale.…”

Reproduction of Biomimetic Structural Colors via µm‐Scale Ni Textures

Development of Fe‐Based Degradable Metallic Biomaterials

Dilemmas and countermeasures of Fe-based biomaterials for next-generation bone implants