Patterned Article Including Metallic Bodies

Organization Name

3M INNOVATIVE PROPERTIES COMPANY

Inventor(s)

Raymond P. Johnston of Lake Elmo MN (US)

John J. Sullivan of Hudson WI (US)

Matthew C. Messina of Maplewood MN (US)

Charles D. Hoyle of Stillwater MN (US)

Jaewon Kim of Woodbury MN (US)

Haiyan Zhang of Lake Elmo MN (US)

Kevin W. Gotrik of Hudson (MN)

Douglas S. Dunn of Woodbury MN (US)

Patterned Article Including Metallic Bodies - A simplified explanation of the abstract

This abstract first appeared for US patent application 18059151 titled 'Patterned Article Including Metallic Bodies

The patent application describes a patterned article with a polymeric layer containing through openings, each housing a metallic body flush with the polymeric layer's surface.

• The article features metallic bodies in through openings, flush with the polymeric layer.
• The metallic bodies have lateral sidewalls that do not extend past the polymeric layer's second major surface.
• Each metallic body is coextensive with the through opening in at least one cross-section.
• The metallic bodies are electrically isolated from each other.
• The innovation allows for precise integration of metallic bodies within a polymeric layer for various applications.

Potential Applications: - Electronic devices requiring precise placement of metallic components. - Sensors or actuators embedded within flexible materials. - Antennas or conductive traces in wearable technology.

Problems Solved: - Ensures accurate positioning of metallic components within a polymeric layer. - Provides electrical isolation between metallic bodies for improved performance. - Enables the creation of complex patterns with metallic elements in flexible materials.

Benefits: - Enhanced functionality and performance of electronic devices. - Increased design flexibility for incorporating metallic components. - Improved durability and reliability of integrated metallic bodies.

Commercial Applications: Title: Advanced Flexible Electronics Manufacturing This technology can revolutionize the production of flexible electronics, opening up new possibilities for wearable devices, IoT applications, and smart textiles. The precise integration of metallic bodies within polymeric layers can lead to more efficient and reliable electronic components.

Prior Art: Further research can be conducted in the field of flexible electronics manufacturing, specifically focusing on methods of integrating metallic components within polymeric materials.

Frequently Updated Research: Stay updated on advancements in flexible electronics manufacturing, materials science, and nanotechnology to explore new possibilities for integrating metallic bodies within polymeric layers.

Questions about Patterned Article with Metallic Bodies: 1. How does the integration of metallic bodies within a polymeric layer improve the performance of electronic devices? 2. What are the key challenges in manufacturing patterned articles with metallic bodies embedded in polymeric layers?

Original Abstract Submitted

A patterned article includes a polymeric layer having opposing first and second major surfaces and defining a plurality of through openings therein. For each through opening in at least a sub-plurality of the through openings, a metallic body is disposed in the through opening. The metallic body has a first outermost surface, an opposite second outermost surface and at least one lateral sidewall extending therebetween. The first outermost surface of the metallic body is substantially flush with the first major surface of the polymeric layer. Each lateral sidewall extends from the first outermost surface of the metallic body toward or to, but not past, the second major surface of the polymeric layer. The metallic body is substantially coextensive with the through opening in at least one cross-section parallel to the polymeric layer. The metallic bodies can be electrically isolated from one another.