Strategic technical intelligence for deep-tech VCs, R&D directors, and IP professionals who need to know whether the science behind the filings holds.
Standard patent landscape reports tell you who filed and when. They cannot tell you whether the science behind those claims is sound.
Ostanes Intelligence cross-references patent claims against the Materials Project (154,000+ inorganic materials with computed thermodynamic properties from quantum mechanical calculations) and against 250M+ scientific publications via OpenAlex, surfacing implausibility flags, white space opportunities, and competitive intelligence patterns that standard tools cannot.
The result is a strategic intelligence document that changes how you assess freedom-to-operate, technical risk in your portfolio companies, and where R&D investment should be directed before the IP landscape closes.
Every major SSE material under active patent filing is thermodynamically metastable. Only β-Li₃PS₄ sits on the stability hull, and it is the least patented of the three.
Download · 2pp PDFPatents claiming stable PEM anode operation for tetragonal IrO₂ (sitting 0.263 eV/atom above the convex hull) face a scientific plausibility challenge under operating conditions.
Download · 2pp PDFA six-month filing window remains before Apple, Qualcomm, and Samsung file defensively for hardware-level KV-cache solutions. The architectural pattern is well-defined.
Download · 2pp PDFA focused 5-page analysis of one specific technology question. Ideal for quick freedom-to-operate sanity checks, due diligence pre-screens, and competitive landscape spot-checks.
A 50–70 page strategic intelligence report covering full patent landscape, scientific validation, white space identification, competitive dynamics, and five strategic recommendations.
Continuous intelligence on a defined technology domain. Quarterly landscape updates with monthly alerts on new filings and publications worth your attention.
The Science-Patent Link uses a three-agent search strategy, validated CPC codes, chemical formula extraction from patent claims, and convex-hull analysis from quantum mechanical calculations. Read the full methodology.