A label-free nanopore platform uses programmable DNA circuits to build versatile molecular logic gates, forming a universal basis for scalable DNA computing and advanced biosensing applications.

This video explains how transistors work as switches and amplifiers in electronic circuits. Transistors control the flow of ...

Nearly every piece of technology you use—from smartphones to computers—relies on one revolutionary component: the transistor.

Pharmacodynamic data further underscore clinical proof-of-mechanism for 'OR/NOT' Logic Gate, showing selective killing of leukemic blasts and leukemic stem cells (LSCs) while sparing healthy ...

Over the past two decades, synthetic biology has fueled advancements across a broad range of disciplines, including agriculture, bioremediation, biofuel production, and chemical manufacturing. Today, ...

In order to increase the dependability of quantum calculations, study explores the use of Shor’s algorithm in a noisy quantum environment. Cosmic rays, magnetic ...

A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or ...

Quantum computing is set to redefine data security, AI, and cloud infrastructure. This in-depth research explores how post-quantum cryptography, quantum AI acceleration, and hybrid quantum-cloud ...

The approach enables DFT and design verification (DV) teams to operate in parallel, accelerating development cycles while improving fault coverage. This cohesive strategy not only boosts test ...

Quantum computing could change the world, and IonQ's quantum computing stock has fallen 26% from its October peak. Does that ...

BTQ has exercised its option to acquire QPerfect, a leading neutral atom quantum computing company, based at the heart of ...

Researchers develop a 3D transistor stacking process that boosts performance in flexible and wearable electronics without ...