Hybrid Technology 40 Gases

Scientifically Proven, Tested & Verified Technology

Active Ingredients: For 40 Gases

• Impregnated Activated Carbons - (AIAC01 to AIAC12)
• Impregnated Activated FR005 - (AIAR07, AIAR16, AIAR24, AIAR38)
• Impregnated Activated FD007 - (AIAD21, AIAD27, AIAD30, AIAD45)
• Impregnated Activated Aluminas - (AIAA02, AIAA05, AIAA08)
• Impregnated Activated Natural Zeolites - (AINZ14, AINZ16, AINZ19)
• Impregnated Activated 3A - (AIA303)
• Impregnated Activated 4A - (AIA407)
• Impregnated Activated 5A - (AIA502)
• Impregnated Activated 13X - (AIA1309)
• Plant Nanolites 
• Plant Electrons 
• Plant Membranes

List of 40 Toxic Gases Adsorbs By Hybrid SYS Car Air Purifier And Their Purification Inside Cars

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 list of toxic gases commonly found inside cars,

🧍♂️ 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 (C₆H₆)
• Toluene (C₆H₅CH₃)
• Ethylbenzene (C₆H₅CH₂CH₃)
• Xylene (CH₃)₂C₆H₄)
• Formaldehyde (HCHO)
• Acetaldehyde (CH₃CHO)
• Acetone (C₃H₆O)
• Methanol (CH₃OH)
• Ethanol (C₂H₆O)
• Isopropanol (C₃H₈O)
• Butanol (C₄H₉OH)
• Styrene (C₈H₈)
• Hexane (C₆H₁₄)
• Heptane (C₇H₁₆)
• Octane (C₈H₁₈)
• Cyclohexane (C₆H₁₂)

👉 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 (CH₂Cl₂)
• Trichloroethylene (C₂HCl₃)
• Tetrachloroethylene (C₂Cl₄)
• Chloroform (CHCl₃)
• Vinyl chloride (C₂H₃Cl) (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 (C6H6)	VOC	13X, 5A, AC, FR, FD, NZ	Adsorption
2	Toluene (C6H5CH3)	VOC	13X, 5A, AC, FR, FD, NZ	Adsorption
3	Ethylbenzene (C6H5CH2CH3)	VOC	13X, 5A, AC, FR, FD, NZ	Adsorption
4	Xylene (CH3)2C6H4)	VOC	13X, 5A, AC, FR, FD, NZ	Adsorption
5	Formaldehyde (HCHO)	VOC	4A, 13X, AC, FR, FD, NZ	Oxidation to CO₂ & H₂O
6	Acetaldehyde (CH3CHO)	VOC	4A, 13X, AC, FR, FD, NZ	Oxidation
7	Acetone (C₃H₆O)	VOC	5A, 13X, AC, FR, FD, NZ	Adsorption
8	Methanol (CH₃OH)	VOC	3A, 4A, AC, FR, FD, NZ	Adsorption
9	Ethanol (C₂H₆O)	VOC	3A, 4A, AC, FR, FD, NZ	Adsorption
10	Isopropanol (C3H8O)	VOC	3A, 4A, AC, FR, FD, NZ	Adsorption
11	Butanol (C4H9OH)	VOC	5A, 13X, AC, FR, FD, NZ	Adsorption
12	Styrene (C8H8)	VOC	13X, 5A, AC, FR, FD, NZ	Adsorption
13	Hexane (C6H14)	VOC	5A, 13X, AC, FR, FD, NZ	Adsorption
14	Heptane (C7H16)	VOC	5A, 13X, AC, FR, FD, NZ	Adsorption
15	Octane (C8H18)	VOC	5A, 13X, AC, FR, FD, NZ	Adsorption
16	Cyclohexane (C6H12)	VOC	5A, 13X, AC, FR, FD, NZ	Adsorption
17	Carbon monoxide (CO)	Combustion	13X, AC, FR, FD, NZ	Chemisorption/oxidation to CO₂
18	Nitric oxide (NO)	Combustion	13X, AC, FR, FD, NZ	Catalytic oxidation
19	Nitrogen dioxide (NO₂)	Combustion	13X, AC, FR, FD, NZ	Reduction / neutralization
20	Sulfur dioxide (SO₂)	Combustion	13X, 4A, AC, FR, FD, NZ	Reduction to sulfate
21	Hydrogen sulfide (H₂S)	Sulfur	13X, 4A, AC, FR, FD, NZ	Conversion to ZnS
22	Carbon disulfide (CS₂)	Sulfur	13X, 5A, AC, FR, FD, NZ	Adsorption
23	Dimethyl sulfide (DMS)	Sulfur	13X, 5A, AC, FR, FD, NZ	Adsorption
24	Methyl mercaptan (CH₃SH)	Sulfur	13X, 4A, AC, FR, FD, NZ	Chemisorption
25	Ammonia (NH₃)	Nitrogen	3A, 4A, AC, FR, FD, NZ	Acid–base neutralization
26	Methylamine (CH₃NH₂)	Nitrogen	3A, 4A, AC, FR, FD	Adsorption
27	Dimethylamine ((CH₃)₂NH)	Nitrogen	3A, 4A, AC, FR, FD	Adsorption
28	Dichloromethane (CH2Cl2)	Halogenated	13X, 5A, AC, FR, FD	Adsorption
29	Trichloroethylene (C2HCl3)	Halogenated	13X, 5A, AC, FR, FD	Adsorption
30	Tetrachloroethylene (C2Cl4)	Halogenated	13X, 5A, AC, FR, FD	Adsorption
31	Chloroform (CHCl₃)	Halogenated	13X, 5A, AC, FR, FD	Chemisorption
32	Vinyl chloride (C2H3Cl)	Halogenated	13X, 5A, AC, FR, FD	Adsorption
33	Hydrochloric acid vapor (HCl)	Acidic	13X, 4A, AC, FR, FD, NZ	Neutralization
34	Nitric acid vapor (HNO₃)	Acidic	13X, 4A, FR, FD, NZ	Adsorption & neutralization
35	Sulfuric acid vapor (H₂SO₄)	Acidic	13X, 4A, FR, FD, NZ	Adsorption
36	Ozone (O₃)	Oxidizer	13X, AC, FR, FD	Catalytic decomposition
37	Methane (CH₄)	Greenhouse	5A, 13X, FR, FD	Adsorption (limited)
38	Nitrous oxide (N₂O)	Greenhouse	5A, AC, FR, FD	Physical adsorption
39	Tris(1,3-dichloro-2-propyl) phosphate (TDCPP)	PFAS	13X, AA, AC, FR, FD	Adsorption & surface reaction
40	Tris(2-carboxyethyl) phosphine (TCEP)	PFAS	13X, AA, AC, FR, FD	Adsorption

⚙️ Filter Synergy Summary

Filter Material	Main Function	Removable Gas Categories
APHEPA Filter	Air Filtration Cover	No direct gas removal; must be combined with gas adsorber and main medium for airflow
Impregnated Activated Carbon (AC)	Adsorption + Chemisorption	Check The Above Table
Impregnated Activated Alumina (AA)	Acidic / HF-type gas adsorption	Check The Above Table
Impregnated Activated Natural Zeolites & Impregnated Activated 3A / 4A / 5A / 13X	Size-selective molecular sieving	Check The Above Table
Impregnated Activated FR005, Impregnated Activated FD007 Nano Adsorb Plasma Technology, Nano Electro Absorb Technology, Anti Decay Technology, Nano Coating Technology	Proprietary Formula	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 Carbons→ (3) Impregnated Activated FR005→ (4) Impregnated Activated FD007→(5) Impregnated Activated Zeolites 3A,4A,5A,13X→(6) Impregnated Activated Natural Zeolites→(7) Impregnated Activated Alumina→ (8) Plant Nanolites→(9) Plant Electrons→(10) Plant Membranes.

👉 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.