Investigating Dyes for Solar Cells from Start to Finish
Finding the right dyes for a new type of solar cell can be challenging, but this study used supercomputers to speed up the process
Finding the right dyes for a new type of solar cell can be challenging, but this study used supercomputers to speed up the process
A new catalyst design meets cost, activity, and durability goals by leveraging ultralow loadings of platinum with platinum-free supports.
Dark fiber lays groundwork for long-distance earthquake detection and groundwater mapping.
Models use a fraction of the computational cost of today’s best atom-based water models.
Supercomputer use offers insights into how to best describe the nature of our universe.
Supercomputer validates mathematical approach for describing geological features.
Low-momentum (wimpy) quarks and gluons contribute to proton spin, offering insights into protons’ behavior in all visible matter.
Scientists use supercomputers to determine how reliably a popular Earth system model represents precipitation regionally and globally.
A first-of-its-kind computer simulation reveals self-healing cement for geothermal and oil and gas wells performs better than originally thought.
Particles act in a way that justifies extrapolating simulation results to astrophysical scales.
Engineers can model heat distribution in reactor designs with fewer or no approximations.
Researchers use advanced nuclear models to explain 50-year mystery surrounding the process stars use to transform elements.
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