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About This Item:
These Anti-Odor Insoles integrate multiple layers and advanced materials to maintain a consistently fresh and clean foot environment. From the topmost layer to the supportive base, every component is engineered to control moisture, inhibit bacteria, and neutralize unpleasant smells.
Starting at the surface, the antimicrobial, moisture-wicking top layer uses eco-friendly, mildew-resistant yarns treated to withstand water and mold. This surface absorbs sweat within one to three seconds and directs it downwards, ensuring the foot remains dry and less prone to odor-causing microbes. Beneath this layer lies the 3D-printed breathable section, made of 99% antimicrobial TPU with more than two million micropores. This intricate lattice design continuously circulates air, evaporating sweat before it can create a breeding ground for bacteria or fungus, and providing soft cushioning that prevents hot spots.
Below that, a specialized moisture-absorbing foam layer further wicks away residual dampness. Its pyramid-shaped protrusions and micro-channels disperse moisture evenly, while offering a gentle, massaging texture that stimulates circulation and helps prevent stagnant, odorous conditions. Any lingering moisture is rapidly funneled away by the rapid-drying layer equipped with hundreds of drainage holes and a 3D-printed Laval nozzle system. This design channels fluid downward and out of the insole, eliminating dampness that often leads to odor.
To maintain dryness on the move, the automatic air-drying system at the base activates with each step. Thirty-two air bladders and multiple ventilation channels generate fresh airflow—up to four to six milliliters per step—accelerating evaporation and ensuring the foot environment remains hostile to odor-producing bacteria. Optional functional inserts, made from Ortholite foam, high-resilience materials, or advanced cushioning foams like ACF, can be added or swapped out to provide tailored support and reduce friction. By improving foot alignment and shock absorption, these inserts indirectly reduce sweat and heat buildup.
For those seeking additional benefits, health therapy features can be integrated, such as energy chips or magnetic elements, encouraging healthy circulation and potentially deterring microbial growth. Similarly, medicinal patches infused with antimicrobial or deodorizing compounds can be released slowly via heat and pressure, further extending the fresh feeling throughout the day. The addition of micro-intelligent arch support and a carbon fiber plate ensures proper weight distribution and reduces unnecessary friction and sweating, promoting an environment less conducive to odor development.
In short, these Anti-Odor Insoles tackle the root causes of unpleasant smells—moisture, heat, and bacteria—through a comprehensive system of rapid sweat absorption, continuous ventilation, antimicrobial protection, and optional therapeutic enhancements. The result is a comfortable, hygienic, and long-lasting freshness that enhances overall foot health and user confidence.
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These Anti-Odor Insoles integrate multiple layers and advanced materials to maintain a consistently fresh and clean foot environment. From the topmost layer to the supportive base, every component is engineered to control moisture, inhibit bacteria, and neutralize unpleasant smells.
Starting at the surface, the antimicrobial, moisture-wicking top layer uses eco-friendly, mildew-resistant yarns treated to withstand water and mold. This surface absorbs sweat within one to three seconds and directs it downwards, ensuring the foot remains dry and less prone to odor-causing microbes. Beneath this layer lies the 3D-printed breathable section, made of 99% antimicrobial TPU with more than two million micropores. This intricate lattice design continuously circulates air, evaporating sweat before it can create a breeding ground for bacteria or fungus, and providing soft cushioning that prevents hot spots.
Below that, a specialized moisture-absorbing foam layer further wicks away residual dampness. Its pyramid-shaped protrusions and micro-channels disperse moisture evenly, while offering a gentle, massaging texture that stimulates circulation and helps prevent stagnant, odorous conditions. Any lingering moisture is rapidly funneled away by the rapid-drying layer equipped with hundreds of drainage holes and a 3D-printed Laval nozzle system. This design channels fluid downward and out of the insole, eliminating dampness that often leads to odor.
To maintain dryness on the move, the automatic air-drying system at the base activates with each step. Thirty-two air bladders and multiple ventilation channels generate fresh airflow—up to four to six milliliters per step—accelerating evaporation and ensuring the foot environment remains hostile to odor-producing bacteria. Optional functional inserts, made from Ortholite foam, high-resilience materials, or advanced cushioning foams like ACF, can be added or swapped out to provide tailored support and reduce friction. By improving foot alignment and shock absorption, these inserts indirectly reduce sweat and heat buildup.
For those seeking additional benefits, health therapy features can be integrated, such as energy chips or magnetic elements, encouraging healthy circulation and potentially deterring microbial growth. Similarly, medicinal patches infused with antimicrobial or deodorizing compounds can be released slowly via heat and pressure, further extending the fresh feeling throughout the day. The addition of micro-intelligent arch support and a carbon fiber plate ensures proper weight distribution and reduces unnecessary friction and sweating, promoting an environment less conducive to odor development.
In short, these Anti-Odor Insoles tackle the root causes of unpleasant smells—moisture, heat, and bacteria—through a comprehensive system of rapid sweat absorption, continuous ventilation, antimicrobial protection, and optional therapeutic enhancements. The result is a comfortable, hygienic, and long-lasting freshness that enhances overall foot health and user confidence.
Below is a table summarizing the layers, materials, design features, and how each element contributes to anti-odor performance in the insoles:
| Layer/Feature | Materials & Characteristics | Design Features | Anti-Odor Benefits |
| Antimicrobial, Moisture-Wicking Top Layer | Eco-friendly, antimicrobial, mold-resistant yarns with >95% moisture permeability | 50-60% porosity, rapid 1-3s sweat absorption | Keeps the foot surface dry, preventing bacterial growth and odor formation. Antimicrobial fibers inhibit microbes, reducing unpleasant smells. |
| 3D-Printed Breathable Layer | 99% antimicrobial TPU with over 2.33 million micropores, 65-75% porosity | Multi-layer 3D lattice structure, 1.2 mm thick | Ensures continuous airflow to evaporate sweat quickly. The antimicrobial properties restrain bacterial/fungal growth, minimizing odor. |
| Moisture-Absorbing & Massaging Foam Layer | Special open-cell foam capable of absorbing up to 280% moisture | Pyramid-shaped protrusions, micro-channels for uniform moisture spread | Rapidly wicks away residual moisture, maintaining dryness. The gentle massage enhances circulation, reducing the conditions that lead to odor buildup. |
| Rapid-Drying Layer with Laval System | 800-1000 directed drainage holes, aerodynamic 3D-printed Laval nozzles | Downward moisture flow design | Quickly drains and expels accumulated moisture, preventing dampness that fosters bacterial growth and unpleasant smells. |
| Automatic Air-Drying System | 32 air bladders, 12 ventilation channels, >2000 micro-scale Laval structures | Pressure-driven airflow (4-6 ml/step), continuous evaporation | Every step generates airflow to promptly remove lingering moisture, ensuring a dry environment hostile to odor-causing microbes. |
| Customizable Functional Inserts (Optional) | Ortholite foam, high-resilience materials, ACF foam, silicone | Easily interchangeable inserts | Proper support and shock absorption reduce friction and overheating, indirectly lowering sweat and odor generation. Inserts can also include antimicrobial treatments. |
| Health Therapy Features (Optional) | Energy chips, magnetic elements, terahertz materials | Independent air pockets for therapy elements | Enhances blood flow and ion balance, promoting a healthier foot environment less prone to bacterial overgrowth and odor. Some therapeutic additions may also have odor-controlling properties. |
| Medicinal Patch Application (Optional) | Various patches targeting odor reduction, cleansing, or antimicrobial properties | Foot warmth-assisted release of active compounds | Patches delivering antimicrobial or odor-neutralizing substances maintain a fresher in-shoe atmosphere over time. |
| Micro-Intelligent Arch Support & Carbon Plate | Ergonomic arch grooves, carbon fiber reinforcement | Even weight distribution, improved posture | Better alignment reduces stress and friction-induced sweating, curbing conditions that lead to odor. A balanced foot environment helps maintain freshness longer. |
Overall Advantage:
These Anti-Odor Insoles combine advanced moisture management, continuous ventilation, and antimicrobial technologies to create a foot environment that stays dry, clean, and free from unpleasant smells. Every layer—from the top antimicrobial fabric to the customizable inserts and automatic air-drying system—works in synergy to inhibit bacterial and fungal growth. The result is a consistently fresh, comfortable experience that enhances foot hygiene and user confidence over prolonged use.
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