Research to make a wide range of products made from polymers recyclable or reusable will benefit from the Cottrell Scholar ...

Feb. 21, 2025 — Perovskite solar cells are highly efficient and low cost in production. However, they still lack stability over the decades under real weather conditions. An international ...

Because the cornea is an avascular, low-cell-density tissue that relies on aqueous humor circulation to maintain metabolism, ...

Scientists have identified a new property, interface flexibility, that controls how certain molecules naturally self-organize into crystalline supramolecular networks. This significant discovery could ...

The CBSE board exams are a crucial step in your academic journey, and with the right approach, you can not only score well ...

Tel Aviv University researchers have discovered a way to rearrange graphite's atomic layers, potentially revolutionizing ...

Treasury yields from 7 to 30 years out trade at or above 3%, a day after Fed delivers half-point rate hike ...

We aim to build confidence in the safety and reliability of payment service providers’ services while protecting end users from specific risks. We’re taking steps to better understand the impacts of ...

The best hair repair treatments for stronger, shinier hair, according to 200 women. This is why and when to turn to bond ...

Chemistry is a branch of science that involves ... The amphoteric character of chalcogen bonding (ChB) and halogen bonding (XB) donor atoms for anion or cation recognition is demonstrated using ...

综上所述，研究通过引入强离子电势的Sb元素对钠离子电池正极材料掺杂修饰，抑制充电过程中的晶格滑移，提高材料层状结构稳定性，构筑稳定的离子扩散通道，实现电池快充。该研究聚焦钠离子电池层状氧化物正极材料在阴离子氧化还原过程的结构稳定性，揭示了充放电过程中正极结构相转变规律和氧原子电子结构变化之间的内在联系，为开发高比能钠离子电池正极材料提供了重要的思路。