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Quantifying molecular complexity has the potential to enhance retrosynthetic analysis and, thus, aid the development of efficient total syntheses. This Perspective discusses methods for rigorous, reproducible complexity measurement, highlighting their potential to revolutionize traditional complex molecule synthesis and uncover new synthetic opportunities.
The assessment of the aromaticity of actinide compounds has proven a controversial task. This Perspective highlights the application of state-of-the-art computational tools in assessing the aromaticity of actinide complexes and clusters and explains why commonly used magnetic probes, not just the nucleus-independent chemical shift but also the magnetically induced ring current, might be insufficient for assessing the aromaticity of these species.
The four core effects of high-entropy alloys are discussed and greater insights are presented. These clarifications are helpful in understanding materials from low entropy (simple two-component or three-component alloys) to high entropy (five components or greater), and in general materials design.
