Creating complex structures at the tiniest scales has long been a challenge for engineers. But new research from Georgia Tech ...

A joint international research team has, for the first time, revealed the crucial link between the structure of the solid ...

This paper reports the influence of bandgap and!or electron affinity tuning of zinc oxide on the performance of n-ZnO/p-Si single heterojunction photovoltaic cell. The simulations using PCID reveal ...

Discover how MIT’s sodium fuel cell innovation could revolutionize electric aviation with higher energy density and sustainable solutions.

Unlike lithium-ion batteries, which are becoming increasingly expensive and resource-intensive, the Sodium Ion 4.0 uses sodium, a more abundant and environmentally friendly material.

The battery industry is on the brink of a major shift as sodium-ion batteries prepare to enter mass production, offering a promising alternative to traditional lithium-ion technology. This video ...

Join Dr. Na Li as she explores the mysteries of the particle drifting effect and its practical applications in real-world scenarios.

This study investigates the impact of electron affinity and defect density on the performance of FACsSnI3- based perovskite solar cells using five different electron transport layers (ETLs): SnS2, ...

Learn what sodium-ion batteries are, how they compare to lithium-ion, and whether they could become the future of energy storage.

Research on anode-less solid-state lithium metal batteries reveals how metal interlayers influence lithium plating stability and electrochemical performance.

Sodium-sulfur batteries are a great option for energy storage, and the new electrolyte can help energy companies realize their potential.

Wang, J., Li, Y. and Yang, Z. (2016) Performance Comparison of Lithium and Sodium Oxides as Electrode Materials in Battery Applications. Electrochimica Acta, 211, 877 ...