detect and identify thousands of gases in seconds sensitive Identify chemicals at low PPM concentrations with no sample preparation. rapid answers Less than 20 seconds for results. specific Positive identification of gases and vapors using proven FTIR technology. ease of use No sample prep required. Continuous, automatic detection of gases and vapors in real time. robust Work in the harshest environments including high temperature and high humidity. IDENTIFY OVER 5,500 COMPOUNDS INCLUDING: Commonly Spilled Chemicals Ammonia Benzene Butadiene Combustible Liquids Ethyl Alcohol Flammable liquids Gasoline Hydrochloric acid Hydrogen cyanide Hydrogen sulfide Methane Methanol Propane Refrigerant gases ITF-40 Acetone Hydrogen cyanide Methylamine Propylene oxide Phosgene Methyl hydrazine Hydrazine Ammonia Acrylonitrile Allyl Alcohol Phosphoryl trichloride Sulfur dioxide Diborane Nitrogen Dioxide Nitric acid Acrolein Formaldehyde Arsine Carbon Monoxide Cyanogen Chloride (CK) Methyl isocyanate Hydrogen Sulfide Hydrogen chloride Dimethylamine Ethylene oxide Hydrogen fluoride DHS - Acute Toxic Chemicals Warfare agent - Sarin (GB) Warfare agent - Sulfur Mustard (HD) Warfare agent - Tabun (GA) Warfare agent - Soman (GD) Warfare agent - Cyclosarin (GF) Methyl isocyanate Parathion (AEGL-3 entry approx. for rank purpose) Arsine Phosphorus oxychloride (phosphoryl trichloride) Warfare agent - Lewisite Phosgene (CG) Cyanogen Chloride (CK) (AEGL-3 entry approx. for rank purpose) Methyl hydrazine Phosphine Diborane Hydrogen cyanide (HCN) Nitrogen Dioxide Allyl Alcohol Sulfur dioxide Hydrazine Hydrogen sulfide Hydrogen fluoride (HF) Formaldehyde Methyl Mercaptan Nitric acid Boron trifluoride Acrylonitrile (AEGL-3 entry approx for rank purpose) Hydrogen chloride Hydrogen bromide Dimethylamine Ethylene oxide Methylamine Carbon disulfide Carbon monoxide Bromomethane (methyl bromide) Propylene oxide Ammonia OSHA Acetaldehyde Acrolein Acryloyl chloride Allyl chloride Allyl amine Ammonia Arsine bis-Chloromethyl ether Boron trichloride Boron trifluoride Phosgene (Carbonyl chloride) Carbonyl fluoride Chloromethyl methyl ether Trichloronitromethane (Chloropicrin) Cyanogen Cyanogen chloride Diborane Dichloro silane Dichloro silane Dimethyl amine Ethyl nitrite 2-Fluoro ethanol Ethylene oxide Formaldehyde Furan Hydrogen fluoride Hydrogen bromide Hydrogen chloride Hydrogen fluoride Hydrogen peroxide Hydrogen sulfide Iron pentacarbonyl Isopropyl amine Methacryloyl chloride Methyl acrylo nitrile Methyl amine Bromo methane Chloromethane Methyl chloro formate Methyl hydrazine Iodomethane Methyl isocyanate Methyl mercaptan Methyl vinyl ketone Methyl trichloro silane Nickel carbonyl Nitric acid Nitric oxide Nitro methane Nitrogen dioxide Nitrogen dioxide (and N2O4 or Dinitrogen tetroxide) Dinitrogen tetroxide Nitrogen trifluoride Ozone Pentaborane Phosgene (Carbonyl chloride) Phosphine Phosphorous oxychloride Phosphoryl chloride GB (Sarin) Chemical Warfare Agent 94.7% Sulfur dioxide Thionyl chloride Chlorotrifluoroethylene Search all 5,500 gases in our library by downloading our app functional specs The XplorIR is for HotZone usage with continuous, automatic detection with no consumables necessary. Easy Quantification by pairing your PID with the XplorIR Photo-Ionization detectors (PIDs) respond to hundreds of compounds; however, the quantity displayed is only accurate for the gas for which it is calibrated. By identifying the sample with XplorIR, the correction factor for the specific gas present can be used on the PID, thus providing accurate concentration measurement. The combination of the identity provided by the XplorIR and the corrected concentration provided by the PID gives response team members the information required to make critical decisions. redwave introduces the “teamleader” app 1. Access to current XplorIR results from anywhere 2. Real-time XplorIR GPS location 3. Access to proprietary threat database 4. 24/7 access to Reachback Click Below to Download!