KAIST researchers have developed the world’s smallest DNA-based molecular computer that can both process and store information, overcoming the one-time-use limitation of earlier designs. The system ...

Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of ...

A new DNA-based molecular computer from KAIST operates at 0.34nm, combining logic and memory in a reusable system and ...

Circuit design blends theory and creativity to turn electrical concepts into functional systems. By understanding components like resistors, capacitors, and transistors, and applying analysis methods ...

Self-adhesive polymer substrates turn independently optimized transistor modules into snap-together electronic skin that ...

What if the next generation of disposable electronics—the sensors in your food packaging, the diagnostic strips in a medical ...

Combining GaN transistors with silicon-based digital circuits enables complex computing functions built directly into power ...

These boards demonstrate how radiation-hardened GaN devices can enable tight regulation, low dropout performance, and flexible loop compensation in compact architectures” — Bel Lazar, EPC Space CEO ...

ABSTRACT: We present the complete methodology to propose an efficient electrothermal model of the Silicon Carbide (SiC) Metal Oxide Semiconductor Field Effect Transistor (MOSFET), largely used in high ...

Magnetic transistors have been a hot topic for years, but a breakthrough led by researchers at MIT with chromium sulfur bromide (CrSBr) could push us closer to realizing more energy-efficient and ...

A Planet Analog article, “2N3904: Why use a 60-year-old transistor?” by Bill Schweber, inspired some interest in this old transistor and how it’s commonly used, and if any uncommon uses might exist.