English

Crystalyse: a multi-tool agent for materials design

Materials Science 2025-12-02 v1

Abstract

We present Crystalyse, an open, provenance-enforced scientific agent for computational materials design of inorganic crystals that orchestrates tools for compositional screening, crystal structure generation, and machine-learning force-field evaluation. Crystalyse offers three operating modes to trade exploration speed against validation depth: creative (rapid query), adaptive (context-aware routing) and rigorous (comprehensive checks). We release the underlying source code and evaluation scripts to enable plug-and-play use and development. In demonstrations on quaternary oxide exploration, sodium-ion cathode design, and lead-free indoor photovoltaic candidate generation, the agent integrates chemical compound generation with fast stability and property filters. Under adversarial testing, provenance enforcement eliminated material-property hallucinations (a broad adversarial suite pass rate reached 86% from a 57% baseline). Crystalyse provides an agentic artificial intelligence system that can complement existing materials design pipelines, assisting in hypothesis generation while preserving transparency and reproducibility.

Keywords

Cite

@article{arxiv.2512.00977,
  title  = {Crystalyse: a multi-tool agent for materials design},
  author = {Ryan Nduma and Hyunsoo Park and Aron Walsh},
  journal= {arXiv preprint arXiv:2512.00977},
  year   = {2025}
}

Comments

23 pages, 4 figures

R2 v1 2026-07-01T08:02:29.929Z