3D PRINTING MATERIALS

Organization Name

Trustees of Boston University

Inventor(s)

John William Boley of Cambridge MA (US)

Javier M. Morales Ferrer of Allston MA (US)

Stephanie Flores Zopf of Newtonville MA (US)

Chloe Grace Kekedjian of Cambridge MA (US)

Ramon Enrique Sanchez Cruz of Allston MA (US)

3D PRINTING MATERIALS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240218194 titled '3D PRINTING MATERIALS

Simplified Explanation: The patent application discusses methods and compositions for 3D and 4D printing inks with desirable electrical and rheological properties, including a 3D printing ink using a liquid metal emulsion and a method for creating stretchable electronic devices.

Key Features and Innovation:

• Compositions for 3D and 4D printing inks with desirable properties.
• Use of liquid metal emulsion in 3D printing ink.
• Method for creating stretchable electronic devices.
• Tuning of 4D printing inks for desired properties.

Potential Applications: The technology can be applied in the fields of electronics, wearable technology, medical devices, and flexible displays.

Problems Solved: The technology addresses the need for inks with specific electrical and rheological properties for use in 3D and 4D printing applications.

Benefits:

• Enhanced electrical and rheological properties in printing inks.
• Creation of stretchable electronic devices.
• Customization of 4D printing inks for specific applications.

Commercial Applications: The technology can be utilized in industries such as electronics manufacturing, medical device production, and flexible display development, potentially leading to advancements in these fields.

Questions about 3D and 4D Printing Inks: 1. How does the use of liquid metal emulsion in 3D printing ink improve its properties? 2. What are the potential applications of stretchable electronic devices created using this technology?

Frequently Updated Research: Researchers are continually exploring new ways to enhance the properties of 3D and 4D printing inks for various applications, leading to advancements in the field.

Original Abstract Submitted

methods and compositions for 3d and 4d printing inks exhibit desirable electrical and rheological properties. the compositions disclosed include a 3d printing ink employing a liquid metal emulsion and a method of creating a stretchable electronic device using the same. the compositions also include 4d printing inks and methods of tuning said inks to have desirable properties.