Department of Chemistry and Biomedical Sciences, Linnaeus University, SE-391 82 Kalmar, Sweden ...

Understanding hBN epitaxial growth on Ru(0001) through DFT and microkinetic modeling highlights key mechanisms and the impact ...

Back in the old days—the really old days—the task of designing materials was laborious. Investigators, over the course of ...

Researchers swap nitrogen and boron into DNA to create analogues that are geometrically and electrostatically equivalent to ...

The global climate crisis, driven by the depletion of fossil fuels and rising atmospheric CO2 levels, has intensified the ...

Conventional electronics based on silicon are approaching their limits in terms of performance and scalability. In recent ...

TeI6 perovskites are transforming zinc-ion batteries with 11-electron transfer, enhanced redox activity, and exceptional ...

Researchers from Fujian Normal University have developed a novel dual salt-based quasi-solid polymer electrolyte for ...

在此，我们报告设计和制造具有两种不同边缘结构的雅努斯石墨烯纳米带（JGNRs）的方法。在Lieb定理和拓扑分类理论的指导下，我们在一个锯齿形边缘不对称地引入苯基序的拓扑缺陷阵列，同时另一条之字形边缘不变，设计出两种JGNRs。这打破了结构对称性，并在 ...

Scientists have made a significant breakthrough in understanding the growth of "white graphene" on metal substrates. This ...

Stanford researchers have introduced a software tool that accelerates and enhances the analysis of single atom catalysts, ...