Abstract: The present invention relates to processes of making components for electronic and optical devices using laser processing and devices comprising such components. Such process uses a laser to introduce chemical and/or structural changes in substrates and films that are the raw materials from which components for electronic and optical devices are made. Such process yields components that can have one or more electronic and/or optical functionalities that are integrated on the same substrate or film. In addition, such process does not require large-scale clean rooms and is easily configurable. Thus, rapid device prototyping, design change and evolution in the lab and on the production side is realized.

Abstract: The present invention relates to processes of making components for electronic and optical devices using laser processing and devices comprising such components. Such process uses a laser to introduce chemical and/or structural changes in substrates and films that are the raw materials from which components for electronic and optical devices are made. Such process yields components that can have one or more electronic and/or optical functionalities that are integrated on the same substrate or film. In addition, such process does not require large-scale clean rooms and is easily configurable. Thus, rapid device prototyping, design change and evolution in the lab and on the production side is realized.

Abstract: An antenna array including a foldable substrate having a plurality of fold lines arranged in a Miura-ori folding pattern, and a plurality of antenna elements interconnected by an electrical trace and disposed on the substrate, wherein the substrate containing the plurality of antenna elements is to fold according to a one-step Miura-ori folding pattern sequence, and wherein the plurality of antenna elements directs an antenna beam with a range of directivities caused by a folding of the substrate according to the one-step Miura-ori folding pattern sequence. The plurality of antenna elements may be non-overlapping prior to the folding of the substrate. The antenna beam may include a tunable radiation pattern that changes based on various stages of folding of the substrate containing the plurality of antenna elements.

Abstract: New diamine monomers bearing sulfone terminated pendant groups, as well as methods for making the same, are provided. The diamine monomers are useful toward making polyamide, polyimide, and poly(amide-imide) polymers and copolymers, which possess hygromorphic properties and demonstrate humidity driven motility.

Abstract: New diamine monomers bearing sulfone terminated pendant groups, as well as methods for making the same, are provided. The diamine monomers are useful toward making polyamide, polyimide, and poly(amide-imide) polymers and copolymers, which possess hygromorphic properties and demonstrate humidity driven motility.