Excitons, encountered in technologies like solar cells and TVs, are quasiparticles formed by an electron and a positively charged "hole," moving together in a semiconductor. Created when an electron ...

This study demonstrates how tailored polyimide structures can boost lithium-ion battery efficiency, highlighting the role of molecular design in energy storage.

A new study has unveiled a new strategy to enhance lithium-organic batteries by optimizing the active-site density, accessibility, and reactivity in ...

The rapid advancement of the electronics industry is opening new possibilities for the development of increasingly advanced ...

Breakthrough materials that pull water from thin air could offer a sustainable solution to the West's worsening drought ...

In µSR spectroscopy, a unique particle called muonium (Mu) is formed when a muon captures an electron. This muonium reacts with the phosphorus compound, creating a highly reactive radical at the ...

Muon spin rotation (µSR) spectroscopy is a powerful technique that helps to study the behavior of materials at the atomic ...

Researchers at Leipzig University have developed a new process for reversing the polarity of chemical compounds ... Schneider at the Institute of Organic Chemistry, provides a solution-oriented ...

Researchers have profiled the molecular structure and features of a key part of the deadly Nipah virus. Experiments in cells showe how changes in the viral polymerase -- a protein involved in ...

The international team describes their results and the underlying molecular mechanism in Cell Metabolism. Ergothioneine is a natural compound found in certain fungi such as oyster or shiitake ...

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