We transfer physical properties of one substance to another — without a single molecule.
No chemistry. No active ingredients. Just physics.
Two substances prepared independently, separated with no physical contact — exhibiting identical surface oscillation patterns in perfect sync.
We encode physical behaviour into ordinary materials — without changing their chemistry.
Traditional materials science adds chemicals to change properties — new molecules, higher concentrations, altered formulas. We took a different path: we reorganize the internal physical structure of an ordinary base material so it reproduces the behaviour of a completely different substance.
Think of it like pressing a vinyl record. The original music is encoded into grooves — a physical pattern, not a chemical transfer. We do the same: a reference substance’s physical behaviour is “pressed” into an ordinary carrier. Zero molecules transferred. Chemistry stays identical.
Fig. 1 — Correlation transfer. A reference material’s dynamic behavior is physically reproduced in a different material — same chemistry, different physics, zero molecules transferred.
Correlation-Coherent
Information Material
A new class of materials where properties are defined not by chemical composition, but by the internal correlation architecture of the medium.
Interested in working with CCIM-DP technology? Contact our research team
Dynamic Phase
Self-sustained oscillation — domains breathe in coordination.
Correlation Transfer
Pattern reproduced without any molecules transferred.
Survives Manufacturing
Correlation persists through melting, cooling, molding, and storage.
Measurable & Reproducible
Verified via optical speckle analysis — non-invasive laser method.
Fig. 4 — The four pillars of CCIM-DP technology. A new class of materials where properties are defined by internal correlation architecture, not chemical composition.
Same formula. Different physics.
Structured and control specimens are prepared from the same batch, with identical chemical composition. The only difference is the physical conditioning step. The results are measurable.
The structured material's fluctuation pattern matches the reference template at 96% correlation.
Waves in the structured material oscillate in sync — the control drifts randomly (0.38).
Independent facilities produce the same behavior pattern — the technology transfers.
Fig. 3 — Measured evidence: structured vs. control material. Same chemistry, same batch — the only difference is the physical conditioning step. All values verified by optical speckle analysis.
The measurement is reproducible.
Here’s the physics.
The first formal scientific record of the CCIM-DP platform is an open-science preprint. It reports reproducible optical-correlation differences between structured and chemically identical control specimens, with an inter-lab check. A physics paper — not a therapeutic claim.
Two substances prepared independently, separated with no physical contact — exhibiting identical surface oscillation patterns in perfect sync.
Correlation-engineered dynamic phases in wax-based soft matter observed via optical speckle analysis
Meshkova, T. (2025). Methodology, surrogate testing, and artifact controls are reported in full. Peer-review submission in progress.
From your skin to your choices
What happens after you apply — in three quiet steps.
Apply
One gentle swipe on clean skin. The material creates a micro-tactile pattern — a subtle, continuous signal your nervous system starts processing immediately.
Mechanoreceptors: Meissner, Pacinian, Merkel, RuffiniSignal
That signal reaches your brain within milliseconds — using the fastest sensory pathway in your body, into the areas that connect physical feelings with everyday decisions.
A‑beta fibres → Dorsal columns → VPL thalamus → S1/S2 cortexAnchor
Your brain links what you feel on your skin with your eating intention — one connected state. When a craving hits, the signal is still there, quietly re‑activating the decision you already made.*
Insula + PPC + Prefrontal Network → Intention contextFig. 2 — Somatosensory pathway: skin to prefrontal cortex
Our first application: Qufit Stick
CCIM-DP is a platform technology — it can be applied to any carrier medium. Our first product applies it to a cosmetic wax stick, creating a passive sensory interface on the skin.
We program the wax
A cosmetic wax base is physically conditioned to reproduce the dynamic behavior of a reference material.
It creates a signal on your skin
The material’s surface micro-dynamics create a gentle, stable tactile signal detectable by the skin.
It anchors your eating intention
Applied to the skin, it acts as a physical anchor — a subtle, continuous reminder of your eating intention throughout the day.
We program the wax
A cosmetic wax base is physically conditioned to reproduce the reference material’s behavior — no chemical additives.
No chemical additivesIt creates a signal on your skin
The material’s surface micro-dynamics create a gentle, stable tactile signal — no electronics, no active substances.
No electronics · No active substancesIt anchors your eating intention
Applied to the skin, it acts as a physical anchor — a subtle, continuous reminder of your eating intention all day.
One swipe · All day · InvisibleFig. 5 — From physics to product. The CCIM-DP platform applied to a cosmetic wax stick creates a passive sensory interface that supports mindful eating throughout the day.
Built for verification
01Open-Science Verified
The CCIM-DP material platform is documented in an open-science preprint (Zenodo / OSF, 2025). Verified by optical speckle analysis across six independent physical observables — methodology, surrogate testing, and artifact controls are part of the public record.
02Regulatory Compatible
The CCIM-DP platform produces materials that comply with existing regulatory frameworks. Our first product is certified under EU Cosmetics Regulation — no active pharmaceutical substances, no drugs, no supplements.
03Independently Reproducible
The structured-vs-control measurement has been replicated across independent facilities using identical batches. Full methodology, surrogate testing, and artifact controls are part of the public record.
Build with CCIM-DP.
Interested in applying correlation-based material science to your product? Let’s explore what CCIM-DP can do for your category.
Partner With Usinfo@qufit.io · Licensing · White-label · Joint development