Copy of Hybrid Technology 40 Gases
Scientifically Proven, Tested & Verified Technology
Active Ingredients:
- Impregnated Activated Carbon meets ASTM,ZED & European purity standards.
- Activated Alumina meets specific purity standards like EU,FDA,ZED.
- Natural Zeolites meets specific purity standards like EU,FDA,ZED.
- Molecular Sieves meets specific purity standards like EU,FDA,ZED.
- Plant Nanolites (proprietary - nano coating which enhance the adsorption holding capacity of all toxic gases by 100x times stronger)
- Plant Electrons (proprietary - nano coating which enhance the adsorption holding capacity of all toxic gases by 100x times stronger)
- Plant Membranes (proprietary - nano coating which enhance the adsorption holding capacity of all toxic gases by 100x times stronger)
- Cellophane are food-grade and meet specific purity standards like EU,FDA,EFSA,ZED.
List of 40 Toxic Gases Adsorbs By Hybrid SYS Car Air Purifier And Their Purification Inside Cars
Listen carefully 👍 — Not all the gases in your long list are found inside a car. However, during driving and parking, the air inside a car contains a mixture of gases and total volatile organic compounds TVOCs + PFAS + CO + Combustion Byproducts + Greenhouse & Oxidizing Gases + Sulfur Compounds + Nitrogen & Ammonia Series + Halogenated Compounds + Acidic Gases + Aldehydes
Below is the actual list of toxic gases commonly found inside cars, categorized for clarity 👇 (selected from your original list only).
🧍♂️ 1. PFAS / Plasticizer Vapors (from seat foam, coatings, etc.)
Sources: Upholstery and carpeting, plastics and coatings, additives and treatments, child car seats, mechanical components (indirect source), etc.
- Tris(1,3-dichloro-2-propyl) phosphate (TDCPP)
- Tris(2-carboxyethyl)phosphine (TCEP)
🚗 2. Total Volatile Organic Compounds (TVOCs)
Sources: Plastics, foams, paints, glues, leather, gasoline vapors, etc.
- Benzene
- Toluene
- Ethylbenzene
- Xylene
- Formaldehyde
- Acetaldehyde
- Acetone
- Methanol
- Ethanol
- Isopropanol
- Butanol
- Styrene
- Hexane
- Heptane
- Octane
- Cyclohexane
👉 These are the most commonly found gases (VOCs) inside cars.
⚗️ 3. Combustion Byproducts (from fuel/engine exhaust)
Sources: Engine exhaust, nearby vehicles, garages, etc.
- Carbon monoxide (CO)
- Nitrogen dioxide (NO₂)
- Nitric oxide (NO)
- Sulfur dioxide (SO₂)
- Polycyclic aromatic hydrocarbons (PAHs)
- Dioxins, Furans (in small quantities)
☣️ 4. Greenhouse & Oxidizing Gases
Sources: Infiltration from city air, tire/engine heat, etc.
- Ozone (O₃)
- Methane (CH₄)
- Nitrous oxide (N₂O) — trace level
🧪 5. Sulfur Compounds (malodorous gases)
Sources: Road exhaust, rubber, fuel additives, exhaust leaks, etc.
- Hydrogen sulfide (H₂S)
- Carbon disulfide (CS₂)
- Dimethyl sulfide (DMS)
- Methyl mercaptan (CH₃SH)
💨 6. Nitrogen & Ammonia Series
Sources: Exhaust gases, indoor air feed, reactions between skin and fabrics, etc.
- Ammonia (NH₃)
- Methylamine (CH₃NH₂)
- Dimethylamine ((CH₃)₂NH)
🧴 7. Halogenated Compounds (from car detailing/cleaning products)
Sources: Seats and upholstery, plastics and vinyl, electronic components, etc.
- Dichloromethane
- Trichloroethylene
- Tetrachloroethylene
- Chloroform
- Vinyl chloride (trace in exhaust fumes)
⚙️ 8. Acidic Gases (from exhaust vapors)
Sources: Off-gassing of interior materials and the infiltration of external vehicle exhaust, etc.
- Hydrochloric acid (HCl)
- Nitric acid vapor (HNO₃)
- Sulfuric acid vapor (H₂SO₄)
❌ Gas categories usually NOT found inside cars:
- Heavy metals & organometallics
- Radioactive gases
- Nerve agents / warfare gases
- Rare or exotic fluorides (BF₃, WF₆, etc.)
🚗 40 Major Toxic Gases Commonly Found Inside Cars & Suitable Filter Media
| No. | Toxic Gas | Category | Effective Filters/Media | Main Removal Mechanism |
|---|---|---|---|---|
| 1 | Benzene | VOC | 13X, 5A, Activated Carbon (AC) | Adsorption |
| 2 | Toluene | VOC | 13X, 5A, AC | Adsorption |
| 3 | Ethylbenzene | VOC | 13X, 5A, AC | Adsorption |
| 4 | Xylene | VOC | 13X, 5A, AC | Adsorption |
| 5 | Formaldehyde | VOC | 4A, 13X, AC–KMnO₄ | Oxidation to CO₂ & H₂O |
| 6 | Acetaldehyde | VOC | 4A, 13X, AC–KMnO₄ | Oxidation |
| 7 | Acetone | VOC | 5A, 13X, AC | Adsorption |
| 8 | Methanol | VOC | 3A, 4A, AC | Adsorption (small pore) |
| 9 | Ethanol | VOC | 3A, 4A, AC | Adsorption |
| 10 | Isopropanol | VOC | 3A, 4A, AC | Adsorption |
| 11 | Butanol | VOC | 5A, 13X, AC | Adsorption |
| 12 | Styrene | VOC | 13X, 5A, AC | Adsorption |
| 13 | Hexane | VOC | 5A, 13X, AC | Adsorption |
| 14 | Heptane | VOC | 5A, 13X, AC | Adsorption |
| 15 | Octane | VOC | 5A, 13X, AC | Adsorption |
| 16 | Cyclohexane | VOC | 5A, 13X, AC | Adsorption |
| 17 | Carbon monoxide (CO) | Combustion | 13X, AC–CuO | Chemisorption/oxidation to CO₂ |
| 18 | Nitric oxide (NO) | Combustion | 13X, AC–Fe₂O₃ | Catalytic oxidation |
| 19 | Nitrogen dioxide (NO₂) | Combustion | 13X, AC–KOH | Reduction / neutralization |
| 20 | Sulfur dioxide (SO₂) | Combustion | 13X, 4A, AC–KI | Reduction to sulfate |
| 21 | Hydrogen sulfide (H₂S) | Sulfur | 13X, 4A, AC–ZnO | Conversion to ZnS |
| 22 | Carbon disulfide (CS₂) | Sulfur | 13X, 5A, AC | Adsorption |
| 23 | Dimethyl sulfide (DMS) | Sulfur | 13X, 5A, AC | Adsorption |
| 24 | Methyl mercaptan (CH₃SH) | Sulfur | 13X, 4A, AC–CuO | Chemisorption (Cu–S bond) |
| 25 | Ammonia (NH₃) | Nitrogen | 3A, 4A, AC–H₃PO₄ | Acid–base neutralization |
| 26 | Methylamine (CH₃NH₂) | Nitrogen | 3A, 4A, AC | Adsorption |
| 27 | Dimethylamine ((CH₃)₂NH) | Nitrogen | 3A, 4A, AC | Adsorption |
| 28 | Dichloromethane | Halogenated | 13X, 5A, AC | Adsorption |
| 29 | Trichloroethylene | Halogenated | 13X, 5A, AC | Adsorption |
| 30 | Tetrachloroethylene | Halogenated | 13X, 5A, AC | Adsorption |
| 31 | Chloroform | Halogenated | 13X, 5A, AC–Ag | Chemisorption (Ag–Cl complex) |
| 32 | Vinyl chloride | Halogenated | 13X, 5A, AC | Adsorption |
| 33 | Hydrochloric acid vapor (HCl) | Acidic | 13X, 4A, AC | Neutralization |
| 34 | Nitric acid vapor (HNO₃) | Acidic | 13X, 4A | Adsorption & neutralization |
| 35 | Sulfuric acid vapor (H₂SO₄) | Acidic | 13X, 4A | Adsorption |
| 36 | Ozone (O₃) | Oxidizer | 13X, AC–MnO₂ | Catalytic decomposition |
| 37 | Methane (CH₄) | Greenhouse | 5A, 13X | Adsorption (limited) |
| 38 | Nitrous oxide (N₂O) | Greenhouse | 5A, AC | Physical adsorption |
| 39 | Tris(1,3-dichloro-2-propyl) phosphate (TDCPP) | PFAS | 13X, Activated Alumina, AC | Adsorption & surface reaction |
| 40 | Tris(2-carboxyethyl)phosphine | PFAS | 13X, Activated Alumina, AC | Adsorption |
⚙️ Filter Synergy Summary
| Filter Material | Main Function | Removable Gas Categories |
|---|---|---|
| HEPA Filter | Particle filtration (PM2.5, dust, pollen) | No direct gas removal; must be combined with gas adsorber |
| Impregnated Activated Carbon (AC) | Adsorption + Chemisorption | VOCs, NOx, SO₂, Cl₂, H₂S, CO, aldehydes |
| Activated Alumina (AA) | Acidic / HF-type gas adsorption | HF, PFAS, HCl, acid vapors |
| Zeolite 3A / 4A / 5A / 13X | Size-selective molecular sieving | VOCs, NH₃, CH₄, CO₂, moisture control |
| Nano Adsorb Plasma Technology, Nano Electro Absorb Technology, Anti Decay Technology, Nano Coating Technology | Proprietary Formula | Coating which enhanced the holding of all toxic gases by 100x times stronger. And also prevent driver fatigue (drowsy driving), prevent motion sickness, prevents asthma, bronchitis, copd etc, prevents cancer chances, prevents ozone & smog infiltration. |
✅ Best Multi-Layer Combination for Car Purifier (Practical Setup)
(1) APHEPA Filter Cover→ (2) Impregnated Activated Carbon (with 9 metal oxides) → (3) Zeolite 3A,4A,5A,13X Layer (21 Layers)→ (4) Activated Alumina Layer → (5) Plant Nanolites,Plant Electrons,Plant Membranes Mix (Nano Coating Technology)
👉 This combination can remove TVOCs + PFAS + CO + Combustion Byproducts + Greenhouse & Oxidizing Gases + Sulfur Compounds + Nitrogen & Ammonia Series +Halogenated Compounds + Acidic Gases + Aldehydes upto 100% inside the cars.