HoneyCore™ Filtration Architecture

About

HoneyCore™ Filtration Architecture is the world’s first inlet-level purification technology, built on two core innovations: the HoneyCore™ Ceramic Matrix and dual-mode physical and chemical adsorption. Engineered as a multi-stage structural core, the ceramic matrix provides a sintered honeycomb framework that enables precise airflow control, gas-phase mass transfer, and maximized surface interaction, while dual-mode adsorption selectively captures harmful compounds through both physical adsorption and targeted chemical reactions.

❋ Structural dispersion

Precisely engineered flow channels and chamber ratios disperse and homogenize the aerosol before it reaches the adsorption zone, preventing localized high-concentration impact.

❋ Porous media diffusion

Microporous structures extend flow paths and reduce velocity, increasing effective residence time and creating stable conditions for adsorption.

❋ High surface area adsorption

Micro- and mesoporous media provide exceptionally high surface area, enabling effective adsorption of VOCs, irritating aldehydes/ketones, and certain polar gas-phase compounds.

❋ Selective adsorption, not total blockage

Adsorption mechanisms and pore-size distribution are tuned to preferentially reduce harmful and irritating components while minimizing unnecessary loss of key flavor molecules.

How It Works

  • A high-strength alumina–silica honeycomb ceramic provides a chemically inert, low-resistance airflow framework with maximized working surface area.

  • Adsorptive and catalytic layers are directionally coated onto the ceramic channel walls, ensuring continuous, stable contact between the airflow and active filtration surfaces without blockage.

  • The straight, parallel micro-channels elongate airflow paths while reducing velocity, increasing effective contact time under predictable, low-pressure conditions.

  • Physical adsorption targets VOCs and neutral organic compounds, while selective chemical adsorption and catalytic reactions irreversibly capture high-irritation aldehydes and reactive gases.

  • Adsorption mechanisms and pore structures are tuned to prioritize harmful components while minimizing interaction with key flavor-carrying molecules.

  • Independent GC-MS testing confirms consistent removal of multiple harmful gas classes while maintaining smooth, stable airflow.

Where purified air meets nature, and every breath reconnects you with how you feel

  • "The air feels noticeably cleaner and smoother. It completely changed how the experience feels"