Wafer-scale transfer of 2D materials by bonding–debonding. a, Schematic illustration of the bonding and debonding process. b, ...

Explore the cutting-edge world of 2D materials as we introduce graphene and its incredible properties, then dive deep into ...

The rapid advancement of 2D materials (2DMs), such as graphene, transition metal dichalcogenides (TMDs), and hexagonal boron nitride (hBN), has revolutionized the field of nanotechnology and ...

Chinese researchers develop a direct wafer bonding method for 2D semiconductors, enabling smaller, faster electronics.

A South Korean research team has succeeded in synthesizing a large-area 2D semiconductor thin film with almost no defects on ...

Graphene has revolutionized materials science and nanotechnology, showcasing extraordinary electrical, mechanical, and ...

France's Yole Group examines the growing adoption of glass as a critical enabler for semiconductor manufacturing, redefining ...

Engineers and obstetricians at Monash University have invented a wearable Band-Aid-like patch to track a baby's movements ...

A new technical paper titled “Directed self-assembly of 3D interconnected networks” was published by researchers at MIT. Abstract: “Directed self-assembly (DSA) of block copolymers (BCPs) has long ...

Anthony Sabino analyzes the Second Circuit’s ruling in Peloton, highlighting how the decision underscores how securities-fraud cases depend heavily on context.

Monash University engineers and obstetricians have developed a stick-on abdominal patch capable of monitoring a baby’s ...

A phosphorescent liquid-crystal elastomer combines shape change with persistent afterglow, enabling soft materials that visibly track motion, encode hidden patterns and respond to heat or targeted ...