UNSW researchers have redesigned hydrogen fuel cells to solve a critical flaw, bringing clean energy for aviation, heavy ...

Conventional solar cells are just that: photovoltaic devices which, by their physics, extract and transform energy from the sun. Their sensitivity and efficiency are matched to the optical-energy ...

An international research team has developed a perovskite-silicon tandem solar cell that utilizes a bottom cell based on a heterojunction (HJT) design and improved hole transport layers (HTLs).

The Notch signaling pathway plays a pivotal role in determining cell fate, especially in the development and function of T cells. But mimicking this highly mechanical, contact-dependent pathway in the ...

A research team in India using a computational approach designed a perovskite solar cell combining a Dion-Jacobson (DJ) 2D layer with a 3D lead-free halide perovskite, a combination that could ...

Solid-state battery developer QuantumScape has provided further evidence that it’s the real deal in eventually achieving scaled cell production that could one day enable EV modules that are safer, ...

Traditional approaches to biologics production—relying on one-size-fits-all expression vectors and empirical process optimization—have led to inefficiencies in expression, scalability, and ...

A physics-based model that accounts for membrane surface folds predicts cell adhesion on nanopillar arrays with 97% accuracy, enabling optimized biosensor design.

Setting consistent standards has been a persistent bugbear in the engineering of cars since the year dot. Trouble is, ...