Leaf protein extraction lacks an observable time window — the release process is invisible and unquantifiable. As a result:

• Scale‑up relies on trial and error

• Equipment design has no engineering basis

• Process know‑how cannot be transferred across crops

The root cause: physical structure blocks Δt.

Building a leaf‑protein experimental platform — observable, quantifiable, cross‑crop  

• Redefining the experimental pathway — introducing Δt  

• Rebuilding the experimental framework — making extraction observable and recordable  

• Characterizing release mechanisms — making the process describable and designable  

• Exploring engineering pathways — generating verifiable foundational data for industrial decision‑making

Collaborating with universities, research institutes, and industry partners to build a cross‑crop extraction platform and advance both release‑mechanism research and industrialisation. 

Mapping the time‑mechanics of leaf‑protein release (especially Rubisco) — to make extraction designable, and to provide the foundation for industrialization.

Seeking strategic partners in three domains:

• R&D Partners — co-develop experimental equipment across mechanics, sensing, optics, mathematics, and AI automation

• Application Partners — validate leaf‑protein applications in food, nutrition, and low‑carbon feed

• Scale‑Up Partners — translate platform data into pilot‑scale operations and industrial production