Researchers at Northwestern University and Israel's Tel Aviv University have overcome a major barrier to achieving a low-cost ...

Researchers have created a hairlike device for long-term, non-invasive monitoring of the brain's electrical activity. The lightweight and flexible electrode attaches directly to the scalp and delivers ...

ConspectusRecent years have witnessed a surge in efforts to integrate electrically conductive nanomaterials into photopolymer-based additive manufacturing (AM), driven by the growing demand for ...

Today, most of us carry a fairly powerful computer in our hand—a smartphone. But computers weren't always so portable. Since ...

Researchers transformed red marker ink into graphene-based circuits using a laser, enabling low-cost, flexible electronics on ...

The ability to process LGP into conductive pastes and inks expands its ... such as 3D printing of flexible electrodes and ...

Explore how bioelectronic skin patches are transforming medical applications with advanced sensing and reporting technologies ...

An international research team has developed a method to economically synthesize and stabilize conductive colloidal quantum dot inks for solar applications. When used to make quantum dot films in ...

The sophisticated and expensive processes currently used to produce conductive ... such as near-infrared sensors or tools for space exploration. As part of their next studies, Liu and his colleagues ...

Abstract: In this work, flexible antennas additively manufactured via screen printing of copper conductive inks are presented. Antennas such as straight dipoles, meandering dipoles, and circular disc ...

The sensor comprises a three-layer design: the top layer includes a flexible square magnet that deforms under external forces to detect normal and tangential forces; the middle layer incorporates a ...