Restek Datasheets for Chemical Additives and Agents
Chemical additives and agents include a wide range of materials added to polymer resins, paints and coatings, or adhesives to modify specific processing or end-use properties.
Chemical Additives and Agents: Learn more
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| Product Name | Notes |
|---|---|
| 12 components | |
| 2 components | |
| 20 components | |
| 3 components | |
| 4 components | |
| 4,4′-dibromooctafluo robiphenyl | |
| 5 components | |
| 6 components | |
| 7 components | |
| 8 components | |
| MS Tuning Compound | |
| Conc. In Solvent and Volume: 200 μg/mL each in hexane, 1 mL/ampul | |
| Derivatized Form | |
| Free Acid Form | |
| in 14-, 48-, and 110-Liter Sizes We offer a wide range of Scott/Air Liquide transportable gases, from pure gases for purging or calibrating to multi-component mixes which are ideal for... | |
| **3-methylphenol and 4-methylphenol concentration is 100μg/mL. 11,2-diphenylhydrazin e (8270-listed analyte) decomposes to azobenzene (mix component) in the injector. 2N-nitrosodiphenylami ne (8270-listed analyte) decomposes to diphenylamine (mix component) in... | |
| *1,000μg/mL total permethrin. Exact content of each isomer listed on certificate of analysis. | |
| *Added to Minnesota Department of Agriculture List 1 pesticide (neutrals) incident investigation requirements, effective January 1, 2000.¹ CAS # 87674-68-8 manufactured by several companies under various trade names. ¹Analytical Lists... | |
| *Fumaric acid is a trace impurity in malic acid, as well as an added component of the mix. The amount of fumaric acid in malic acid will not affect the... | |
| *Meets all DOT requirements. Available only to customers or distributors inside the 48 contiguous United States; item may not be resold for export. | |
| 1,000 μg/mL in acetonitrile, 1 mL/ampul or 1,000 μg/mL in methanol, 1 mL/ampul or 2,000 μg/mL in methanol, 1 mL/ampul | |
| 1,000 μg/mL in DI water, 1 mL/ampul or 1,000 μg/mL in DI water, 5 mL/ampul | |
| 1,000 μg/mL in methylene chloride (methanol free), 1 mL/ampul Or 1,000 μg/mL in methanol, 1 mL/ampul | |
| 1,000μg/mL each in hexane, 1mL/ampul 32006: Aroclor 1016 32007: Aroclor 1221 32008: Aroclor 1232 32009: Aroclor 1242 32010: Aroclor 1248 32011: Aroclor 1254 32012: Aroclor 1260 | |
| 1,000μg/mL each in hexane, 1mL/ampul 32007: Aroclor 1221 32008: Aroclor 1232 32009: Aroclor 1242 32010: Aroclor 1248 32011: Aroclor 1254 32039: Aroclor 1016/1260 | |
| 100-octane low-lead fuel currently used in piston-type aircraft. | |
| 2,000 μg/mL in methanol, 1 mL/ampul Or 2,000 μg/mL in methylene chloride, 1 mL/ampul | |
| 200 μg/mL in acetone, 1 mL/ampul Or 200 μg/mL in acetone, 5 mL/ampul | |
| 200μg/mL each in isooctane, 1mL/ampul 32064: Aroclor 1016 32065: Aroclor 1221 32066: Aroclor 1232 32067: Aroclor 1242 32068: Aroclor 1248 32069: Aroclor 1254 32070: Aroclor 1260 | |
| 200μg/mL each in isooctane, 1mL/ampul 32065: Aroclor 1221 32066: Aroclor 1232 32067: Aroclor 1242 32068: Aroclor 1248 32069: Aroclor 1254 32299: Aroclor 1016/1260 | |
| 4 Components | |
| A pure, quantitative chloroprene solution, specially stabilized in purge & trap-grade methanol to allow dilutions for working standards in unmodified P&T methanol. The entire preparation procedure is performed under carefully... | |
| American Society for Testing and Materials (ASTM International) Method D6042-96—Test Method for Determination of Phenolic Antioxidants and Erucamide Slip Additives in Polypropylene Homopolymer Formulations Using Liquid Chromatography—is a “consensus” or... | |
| ASTM D5836 and OSHA 42 are test methods for determining 2,4-toluene diisocyanate (2,4-TDI) and 2,6-TDI in the workplace atmosphere. OSHA 47 is for 4,4′-methylenediphen yl isocyanate (4,4′-MDI) in indoor air,... | |
| CAS #: 10386-84-2 Conc. In Solvent and Volume: 2,000 μg/mL in methyl tert-butyl ether, 1 mL/ampul | |
| CAS #: 106-47-8 Conc. In Solvent and Volume: 2,000 μg/mL in methylene chloride, 1 mL/ampul | |
| CAS #: 1066-51-9 Conc. In Solvent and Volume: 100 μg/mL in DI water, 1 mL/ampul | |
| CAS #: 107-13-1 Conc. In Solvent and Volume: 2,000 μg/mL in P&T methanol, 1 mL/ampul | |
| CAS #: 110-75-8 Conc. In Solvent and Volume: 2,000 μg/mL in P&T methanol, 1 mL/ampul | |
| CAS #: 121-14-2 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 1718-51-0 Conc. In Solvent and Volume: 1,000 μg/mL in methylene chloride, 1 mL/ampul | |
| CAS #: 19406-51-0 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 19719-28-9 Conc. In Solvent and Volume: 1,000 μg/mL in acetone, 1 mL/ampul | |
| CAS #: 20675-51-8 Type: Cannabinoids Conc. In Solvent and Volume: 1,000μg/mL in P&T methanol, 1mL/ampul | |
| CAS #: 21087-64-9 Conc. In Solvent and Volume: 1,000 μg/mL in acetone, 1 mL/ampul | |
| CAS #: 25654-31-3 Type: Cannabinoids Conc. In Solvent and Volume: 1,000μg/mL in P&T methanol, 1mL/ampul | |
| CAS #: 3386-33-2 Conc. In Solvent and Volume: 10,000 μg/mL in methylene chloride, 1 mL/ampul | |
| CAS #: 348-51-6 Conc. In Solvent and Volume: 2,000 μg/mL in P&T methanol, 1 mL/ampul | |
| CAS #: 35572-78-2 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 3766-81-2 Conc. In Solvent and Volume: 100 μg/mL in methanol, 1 mL/ampul | |
| CAS #: 434-90-2 Conc. In Solvent and Volume: 1,000 μg/mL in acetone, 1 mL/ampul | |
| CAS #: 51-36-5 Conc. In Solvent and Volume: 1,000 μg/mL in methyl tert-butyl ether, 1 mL/ampul | |
| CAS #: 56-49-5 Conc. In Solvent and Volume: 2,000μg/mL in methylene chloride, 1mL/ampul | |
| CAS #: 5957-75-5 Conc. In Solvent and Volume: 1,000μg/mL in P&T methanol, 1mL/ampu | |
| CAS #: 606-20-2 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 618-87-1 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 6423-43-4 Conc. In Solvent and Volume: 1,000 μg/mL in methanol, 1 mL/ampul | |
| CAS #: 82-68-8 Conc. In Solvent and Volume: 100 μg/mL in ethyl acetate, 1 mL/ampul | |
| CAS #: 88-72-2 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 91-94-1 Conc. In Solvent and Volume: 2,000 μg/mL in methylene chloride, 1 mL/ampul | |
| CAS #: 92-86-4 Conc. In Solvent and Volume: 500 μg/mL in ethyl acetate, 1 mL/ampul | |
| CAS #: 98-95-3 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 99-08-1 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| CAS #: 99-99-0 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| Commercial jet fuel A. | |
| Components in this mix (0.5μL/mL or 0.05% volume/volume each) are at 10X the concentration of the final test solution specified in ASTM 1618 and ASTM 1387. | |
| Components of these products are at 16x the Contract Required Quantitation Level (CRQL) and can be used to prepare calibration mixes at 4x CRQL and at 1x CRQL by serial... | |
| Compound: 1,3-dinitrobenzene CAS #: 99-65-0 Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| Conc. In Solvent and Volume: 0.8 mg/mL each in acetone:water (96:4), 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in acetone, 1 mL/ampul* | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in acetonitrile (*3,5-dinitroaniline at 200 μg/mL), 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in acetonitrile, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in diethylamine:water (20:80), 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in hexane, 10 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in hexane:acetone (80:20), 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in hexane:methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in methyl tert-butyl ether, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL each in water, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in acetonitrile, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in diethylamine:water (20:80), 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in isooctane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,000 μg/mL in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 1,500 μg/mL each in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 10 μg/mL each in isooctane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 10 μg/mL each in P&T methanol, 10 mL/ampul | |
| Conc. In Solvent and Volume: 10 mg/mL total in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 10,000 μg/mL total in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 μg/mL each in acetonitrile, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 μg/mL each in ethyl acetate, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 μg/mL each in isooctane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 μg/mL each in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 μg/mL in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 100 mg total | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in hexane:carbon disulfide (80:20), 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in hexane:toluene (1:1), 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in isooctane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in isopropanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in methylene chloride:methanol (85:15), 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL each in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL in ethyl acetate, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000 μg/mL in toluene, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,000μg/mL each in methylene chloride, 1mL/ampul | |
| Conc. In Solvent and Volume: 2,500 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,500 μg/mL each in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 2,500 μg/mL in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in acetone:toluene (50:50), 5 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in acetonitrile:acetone (90:10), 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in hexane:acetone (95:5), 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in hexane:toluene (1:1), 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in pentane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL each in pentane, 5 mL/ampul | |
| Conc. In Solvent and Volume: 200 μg/mL in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 200 ppm each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 25 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 25 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 25,000 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 25,000 μg/mL in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 250 μg/mL each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 30 mg/mL total in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 4,000 μg/mL each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 4,000 μg/mL each in acetone, 5 mL/ampul | |
| Conc. In Solvent and Volume: 4,000 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 400 μg/mL each in hexane, 5 mL/ampul | |
| Conc. In Solvent and Volume: 400 μg/mL each in hexane:toluene (50:50), 5 mL/ampul | |
| Conc. In Solvent and Volume: 5,000 μg/mL each in 90% P&T methanol:10% water, 1 mL/ampul | |
| Conc. In Solvent and Volume: 5,000 μg/mL each in acetonitrile (*3,5-dinitroaniline at 1,000 μg/mL), 1 mL/ampul | |
| Conc. In Solvent and Volume: 5,000 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 5,000 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 5,000 μg/mL in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 5,000 μg/mL in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 5,500 ppm gasoline in P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: 50 μg/mL each in isooctane:ethyl acetate (4:1), 1 mL/ampul | |
| Conc. In Solvent and Volume: 50,000 μg/mL each in DI water, 1 mL/ampul | |
| Conc. In Solvent and Volume: 50,000 μg/mL in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL each in acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL each in deuterium oxide (D2O), 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL each in ethyl acetate, 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL each in hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL each in methanol:acetonitril e (50:50), 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: 500 μg/mL. 1 mL each of these mixtures. | |
| Conc. In Solvent and Volume: Contains 1 mL each of these mixtures. | |
| Conc. In Solvent and Volume: In acetone, 1 mL/ampul | |
| Conc. In Solvent and Volume: In acetonitrile, 1 mL/ampul | |
| Conc. In Solvent and Volume: In acetonitrile, 1mL/ampul | |
| Conc. In Solvent and Volume: In dimethyl sulfoxide, 1 mL/ampul | |
| Conc. In Solvent and Volume: In hexane, 1 mL/ampul | |
| Conc. In Solvent and Volume: In hexane, 20 mL/ampul | |
| Conc. In Solvent and Volume: In hexane, 5 mL/ampul | |
| Conc. In Solvent and Volume: In hexane:toluene (1:1), 1 mL/ampul | |
| Conc. In Solvent and Volume: In hexane:toluene (90:10), 1 mL/ampul | |
| Conc. In Solvent and Volume: In methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: In methyl tert-butyl ether, 1 mL/ampul | |
| Conc. In Solvent and Volume: In methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume: In methylene chloride:methanol (1:1), 1 mL/ampul | |
| Conc. In Solvent and Volume: In P&T methanol, 1 mL/ampul | |
| Conc. In Solvent and Volume: Neat, 1 mL/ampul | |
| Conc. In Solvent and Volume: Neat, 100 mg | |
| Conc. In Solvent and Volume:1,000 μg/mL each in methylene chloride, 1 mL/ampul | |
| Conc. In Solvent and Volume:10,000 μg/mL in P&T methanol, 1 mL/ampul | |
| Concentration calculated as the aldehyde/ketone. | |
| Contains 1mL each of these mixtures. 30006: VOA Calibration Mix #1 (ketones) 30010: VOA Calibration Mix #5 (gases) 30632: CLP VOA CAL2000 MegaMix 30216: vinyl acetate | |
| Contains 1mL each of these mixtures. 30042: 502.2 Calibration Mix #1 30021: 624 Calibration Mix #2 30022: 624 Calibration Mix #3 | |
| Contains 1mL each of these mixtures. 30042: 502.2 Calibration Mix #1 30043: 502.2 Calibration Mix #2 30044: 502.2 Calibration Mix #3 30045: 502.2 Calibration Mix #4 30046: 502.2 Calibration Mix... | |
| Contains 1mL each of these mixtures. 30042: 502.2 Calibration Mix #1 30431: 502.2 MegaMix 30300: 524 Calibration Mix #7A 30304: 524 Calibration Mix #7B 30203: 524 Calibration Mix #8 30201:... | |
| Contains 1mL each of these mixtures. 30201: 524 Internal Standard/Surrogate Mix 30042: 502.2 Calibration Mix #1 30043: 502.2 Calibration Mix #2 30044: 502.2 Calibration Mix #3 30045: 502.2 Calibration Mix... | |
| Contains 1mL each of these mixtures. 30632: CLP VOA CAL2000 MegaMix 30216: vinyl acetate | |
| Contains 1mL each of these mixtures. 30633: 8260B MegaMix 30265: 2-chlorethyl vinyl ether | |
| Contains 1mL each of these mixtures. 31007: SV Calibration Mix #1 (anilines) 31008: SV Calibration Mix #2 (phenols) 31009: SV Calibration Mix #3 (base neutrals) 31010: SV Calibration Mix #4... | |
| Contains 1mL each of these mixtures. 31029: 604 Phenols Mix 31030: 605 Benzidines Mix 31031: 606 Phthalate Esters Mix 31032: 607 Nitrosamines Mix 31033: 609 Nitroaromatics/Isoph orone Mix 31011: 610... | |
| Contains 1mL each of these mixtures. 31900: SOM01.1 SVOA MegaMix, Revised 31902: CLP/SVOA Additions Mix | |
| Contains 1mL each of these mixtures. 31903: CLP 04.1 B/N MegaMix, Revision 2 31902: CLP/SVOA Additions Mix | |
| Contains 1mL each of these mixtures. 32003: Pesticide Standard Mix A w/Surrogates 32004: Pesticide Standard Mix B w/Surrogates 32005: Toxaphene 32007: Aroclor 1221 32008: Aroclor 1232 32009: Aroclor 1242 32010:... | |
| Contains 1mL each of these mixtures. 32406: Minnesota Ag List Pesticides Mix A 32407: Minnesota Ag List Pesticides Mix B | |
| Contains 1mL each of these mixtures. 30300: 524 Calibration Mix #7A 30304: 524 Calibration Mix #7B | |
| For monitoring samples suspected of gasoline contamination, Los Angeles County requires laboratories to calibrate and report these compounds. | |
| FPD Detector: Internal Standard: none recommended Surrogate: tributylphosphate (cat.# 32280) and triphenylphosphate (cat.# 32281) | |
| Fuel oil #4 is typically used in limited applications in which the fuel cannot be preheated prior to burning. The fuel is a blend of distillate (fuel oil #2) and... | |
| Fuel oil #5 is typically used in applications in which there is little or no preheating of the fuel prior to burning. A blend of distillate (fuel oil #2) and... | |
| Includes all target analytes except the six gases, which are available separately as 502.2 Calibration Mix #1. | |
| Internal Standard: cat.# 31648 Surrogates for Method 552, 552.1: cat.#'s 31650, 31652, 31649, 31651 Surrogates for Method 552.2: cat.#'s 31653, 31655, 31654, 31656 Surrogates for Method 552.3: cat.#'s 31881, 31882... | |
| ISO/DIS 9377-4 describes a gas chromatography/flame ionization detection (GC/FID) method to analyze total petroleum hydrocarbons (TPHs) in drinking, surface, waste, and treated waste water. Previous methods used Freon® extraction,... | |
| Kit includes: Column: Rxi-5Sil MS w/5 meter Integra-Guard Standards: 33247: 1mL Melamine Stock Standard(1,000μg/mL) 33248: 1mL Cyanuric Acid Stock Standard(1,000μg/mL) 33249: 1mL Ammelide Stock Standard(1,000μg/mL) 33250: 1mL Ammeline Stock Standard(1,000μg/mL)... | |
| Laboratories testing food quality and safety are encouraged to routinely perform proficiency tests. Proficiency testing is an external check of quality. It provides an independent and unbiased assessment of the... | |
| Meet new FDA Guidance for Industry: Testing of Glycerin for Diethylene Glycol with our new diethylene glycol (DEG) and ethylene glycol limit standards. This Guidance emphasizes the importance of screening... | |
| Meets all DOT requirements. Available only to customers or distributors inside the 48 contiguous United States; item may not be resold for export. | |
| Meets all DOT requirements. Available only to customers or distributors inside the 48 contiguous United States; item may not be resold for export | |
| Method 418.1 is an infrared spectrophotometric method for determining Total Recoverable Petroleum Hydrocarbons (TRPH). Dilute this mixture 1:200 to make the stock mixture specified in section 6.5.2 of Method 418.1. | |
| Method 8010 does not specify internal standards to be used. The analyst must select appropriate internal standards based on the particular samples being analyzed. Potential internal standards are available. | |
| Multiple Choices | |
| Our high-quality air monitoring gas calibration standards are provided by Spectra/Linde and Scott/Air Liquide—meeting lab requirements for two separate sources of calibration standards. | |
| Please note: methapyrilene is not included in this revised standard. A methapyrilene standard is currently in development | |
| Prepared from a single source (one refinery) product. | |
| Prepared from an equal volume blend of 5W30, 10W30, 10W40, and 20W50 motor oils. After blending, a precisely weighed amount of the composite is added to a volumetric flask to... | |
| Qualitative mixture useful for determining GPC dump/collect times. The compounds are dissolved in methylene chloride at the concentrations listed. | |
| Qualitative mixture useful for determining GPC dump/collect times. The compounds are dissolved in methylene chloride at the concentrations listed | |
| Reference mixtures for ISO/DIS 9377 (German H-53), a gas chromatography/flame ionization detection (GC/FID) method. For GC analysis of total petroleum hydrocarbons (TPH) in water. Environmentally safer than previous methods. Calibration... | |
| Reference mixtures for ISO/DIS 9377-4 (German H-53), a gas chromatography/flame ionization detection (GC/FID) method. For GC analysis of TPHs in water. Environmentally safer than previous methods. Calibration standard available as... | |
| Reference Standard | |
| Restek offers a full line of certified reference materials | |
| Restek offers this qualitative standard (red dye used in bank “Security Pack”) to help investigators in municipal police stations and criminal laboratories fight crime. | |
| Stoddard solvent is also known as Type I mineral spirits, Texsolve S, or Varsol®1 mineral spirits. We offer this reference material for those who need to calibrate Stoddard... | |
| Subsurface degradation of fuel oil spills can be estimated by examining the ratios of C17/pristane and C18/phytane.1 To assist in identifying these four compounds from the complex fuel oil... | |
| Surrogate Standard | |
| The analysis of residual solvents in pharmaceutical products has changed, particularly for products being sold into Europe. The International Conference on Harmonization (ICH) Guidelines for Residual Solvents is becoming the... | |
| The biodiesel component is methyl soyate. | |
| The EPA Contract Lab Program (CLP) Statement of Work (SOW) OLC03.2 is an analytical method for detection of low concentration volatile, semivolatile, and pesticide/Aroclor® organics in aqueous samples. For... | |
| The measurement of organic acids, either by adsorption and elution from a chromatographic column or by distillation, can be used as a control test for anaerobic digestion. The chromatographic separation... | |
| The test for ethylene oxide is specified in many individual drug monographs of USP24/NF19. The limit test concentration is currently 10ppm. While the specific test solution and method will vary... | |
| These materials also can be used for underground storage tank monitoring. | |
| These mixtures reflect the changes made in USP30/NF25 effective July 1, 2008. | |
| These mixtures reflect the changes made in USP30/NF25 effective July 1, 2008 | |
| These solutions are prepared from a single source (one refinery) product. The weathered materials indicate the percent weight loss from the original material. Samples of regular and premium grade unleaded... | |
| This fuel, sometimes called bunker C or residual, is a black viscous oil. Applications in which it may be used require the ability to preheat the fuel prior to pumping... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: AOCS #1:corn, poppy seed, cotton seed, soybean, walnut, safflower,... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: AOCS #2:linseed, perilla, hempseed, and rubberseed oil | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: AOCS #3:peanut, rapeseed, and mustard seed oil | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: AOCS #4:olive, teaseed, and neatsfoot oil | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: AOCS #5:coconut, palm kernel, babassu, and ouri-curi oil | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: AOCS #6:lard, beef or mutton tallow, and palm oil... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #12:oils of mid-range to long chain lengths (C13... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #13:mustard seed oil | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #14:cocoa butter | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #15:peanut oil | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #1:oils of mid-range chain lengths (C16 - C18)... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #2:oils of short to mid-range chain lengths (C6... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #3:oils of short to mid-range chain lengths (C8... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #4:oils of mid-range to long chain lengths (C16... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #5:oils of mid-range to long chain lengths (C16... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #6:oils of long chain lengths (C20 - C21)... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #7:oils of short chain lengths (C6 - C10)... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #8:oils of short to mid-range chain lengths (C11... | |
| This mixture can be used for quantification (AOCS Method CE 1-62) and approximate the compositions of the following types of oils: FAME #9:oils of mid-range to long chain lengths (C16... | |
| This product has a limited shelf life. We recommend that you order only the ampul quantity that meets your immediate needs. | |
| To ensure the highest quality explosives standards, Restek chemists carefully purify or synthesize all of the compounds listed in EPA Method 8330. | |
| Use these materials to prepare specific mixtures not commercially available. These products are of the highest purity available, typically 99% by GC/FID analysis. Each compound is packaged under a nitrogen... | |
| We prepare our solutions from an equal volume blend of Type I, II, and III mineral spirits. | |
| We prepare the L/C VOA Lab Control Sample in two parts. Sample #1 contains all compounds except vinyl chloride, because this compound is extremely volatile and must be replaced frequently. | |
| catalog # Compound conc. in solvent and volume units 31098 1-chlorooctadecane 10,000 μg/mL in methylene chloride, 1 mL/ampul ea. 31096 2-fluorobiphenyl 10,000 μg/mL in methylene chloride, 1 mL/ampul ea. 31097... | |
| catalog # Compound units 30026 4-bromofluorobenzene ea. 30032 1,4-difluorobenzene ea. 30030 fluorobenzene ea. 30048 α,α,α-trifluorotolue ne ea. | |
| catalog # Compound units 31096 2-fluorobiphenyl ea. 31097 o-terphenyl ea. 31095 p-terphenyl ea. 31487 pentacosane (C25) ea. | |
| catalog # Compound units 33092 acetochlor ESA sodium salt ea. 33094 acetochlor OA ea. 33096 alachlor ESA sodium salt ea. 33099 alachlor OA ea. 33200 metolachlor ESA sodium salt ea. | |
| catalog # Compound units 33208 acetochlor ea. 33207 alachlor ea. 33209 metolachlor ea. | |
| catalog # conc. in solvent and volume units 30048 2,000 μg/mL in P&T methanol, 1 mL/ampul ea. 30068 2,500 μg/mL in P&T methanol, 1 mL/ampul ea. 30083 10,000 μg/mL in... | |
| catalog # conc. in solvent and volume units 30051 200 μg/mL each in P&T methanol, 1 mL/ampul ea. 30213 2,000 μg/mL each in P&T methanol, 1 mL/ampul ea. 30488 2,000... | |
| catalog # conc. in solvent and volume units 30067 2,500 μg/mL in P&T methanol, 1 mL/ampul ea. 30082 10,000 μg/mL in P&T methanol, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 30287 2,000 μg/mL in P&T methanol, 1 mL/ampul ea. 31853 2,000 μg/mL in methylene chloride, 1 mL/ampul ea. 36294 1.9 mg/mL in... | |
| catalog # conc. in solvent and volume units 30435 1,000 μg/mL in P&T methanol, 1 mL/ampul ea. 30453 10,000 μg/mL in P&T methanol, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 30466 10,000 μg/mL in DI Water, 1 mL/ampul ea. 30288 2,000 μg/mL in P&T methanol, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 30467 10,000 μg/mL in DI Water, 1 mL/ampul ea. 36401 15 mg/mL in dimethyl sulfoxide, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 31066 2,000 μg/mL in acetone, 1 mL/ampul ea. 31097 10,000 μg/mL in methylene chloride, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 31220 5,000 μg/mL in methylene chloride, 1 mL/ampul ea. 31252 50,000 μg/mL in methylene chloride, 1 mL/ampul ea. 31253 50,000 μg/mL in... | |
| catalog # conc. in solvent and volume units 31262 5,000 μg/mL in methylene chloride, 1 mL/ampul ea. 31254 50,000 μg/mL in methylene chloride, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 31681 2,000 μg/mL in hexane, 10 mL/ampul ea. 31636 2,000 μg/mL in cyclohexane, 10 mL/ampul (enough to check one Florisil cartridge) ea. | |
| catalog # conc. in solvent and volume units 31879 2,000 μg/mL in methylene chloride, 1 mL/ampul ea. 31415 1,000 μg/mL in methanol, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 31887 1,000 μg/mL each in methylene chloride, 1 mL/ampul ea. 31887.15 1,000 μg/mL each in methylene chloride, 1 mL/ampul 15-pk. 31887.25 1,000... | |
| catalog # conc. in solvent and volume units 32000 200 μg/mL each in acetone, 1 mL/ampul ea. 32457 200 μg/mL each in acetone, 5 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 32029 200 μg/mL in acetone, 1 mL/ampul ea. 32030 200 μg/mL in acetone, 5 mL/ampul ea. 32289 10 μg/mL in isooctane, 1... | |
| catalog # conc. in solvent and volume units 32254 1,000 μg/mL in methanol, 1 mL/ampul ea. 32057 2,000 μg/mL in hexane, 1 mL/ampul ea. | |
| catalog # conc. in solvent and volume units 33251 1,000 μg/mL in pyridine, 1 mL/ampul ea. 33252 1,000 μg/mL in pyridine, 5 mL/ampul ea. | |
| Adds alkyl groups to functional hydrogens (H). Decreases polarity on compounds containing acidic hydrogens, i.e., phenols, carboxylic acids. Forms an ester. | |
| Complete set of materials for N-methylcarbamoyloxi mes and N-methylcarbamates. New mix satisfies latest update of EPA method (531.2). Formulated in acetonitrile for stability and convenience for HPLC analysis. | |
| Complete—all 66 OLC03.2 compounds in four ampuls: MegaMix® reference mix, fortification mix, 3,3′-dichlorobenzidi ne, 4-chloroaniline. Convenient single calibration—2- and 3-cresol isomers at 1/2 concentration of other MegaMix® mix... | |
| Confirm unleaded gasoline TPH, BTEX, and aromatics in a single analysis. Certificate of Analysis includes concentration of TPH, and certified concentrations of BTEX and individual aromatics. Complete data pack available. | |
| Confirms diesel #2 TPH and priority PAHs in a single analysis. Certificate of Analysis includes concentration of TPH and certified concentrations of individual PAHs. Complete data packs available. | |
| Convenient 15μg/mL concentration, similar to the concentration of interest in most ambient air work. Certificate of Analysis lists both aldehyde/ketone and -DNPH derivative concentrations. Fast analysis — Ultra C18 HPLC... | |
| Designed for daily assessment of system performance. Reveals active sites in the injection port and/or GC column. Prepared in MTBE—low expansion volume helps minimize backflash. | |
| Efficiently controls foam; effective over a wide pH range. No hazardous materials, no components that are target analytes. Effective at less than 0.1% of sample volume. | |
| Fewest Mixtures needed for calibration and matrix spikes. Mixtures formulated for maximum stability. Contains most routinely analyzed compounds. | |
| For current Massachusetts VPH method: surrogate included. Matrix spike mix at 50μg/mL, per updated method. | |
| For GC analysis of total petroleum hydrocarbons (TPH) in water. Calibration standard available as Diesel #2/ motor oil and Diesel #2/mineral oil. | |
| For simple sugar analysis by HPLC with refractive index/light scattering detection. Use with a silica column with amino functionality, as recommended by AOAC International. Use as a calibration standard for... | |
| For total petroleum hydrocarbon pattern recognition of creosote oil. High concentration—50,000 μg/mL in methylene chloride. | |
| For total petroleum hydrocarbon pattern recognition of hydraulic oil. High concentration—50,000 μg/mL in methylene chloride. | |
| High concentration. Acetonitrile solvent—suitable for HPLC analyses | |
| High purity for consistent results. Free quality assurance data package available on-line. Highest concentrations commercially available. Convenient 1mL, 5mL and 10mL package sizes reduces cost per sample extract. | |
| Highest concentrations commercially available. Convenient 1mL, 5mL, and 10mL package sizes. Reduces laboratory cost per sample extract. | |
| Highly stable formulation has a minimum shelf life of 18 months. Fully resolves 31 fragrance allergens with 1 analysis on an Rxi®-17 column. Ideal for GC/MS analysis following... | |
| Meet Stage 1 requirements for US EPA Methods 552, 552.1 and 552.2. Meet requirements for Stage 2 DBPR. Prepared from purified neat reference materials for the highest quality. Lot-to-lot consistency... | |
| Meets CCME 2001 Petroleum Hydrocarbons in Soil Method—Tier 1. Primary reference calibration standards for quantification of four fractions. | |
| MegaMix® mixture includes all target compounds not in our current products. Incorporates all phenols, for fast preparation and calibration. Incorporates “additional” extractable Method 625 compounds. | |
| MegaMix® reference mix includes all 50 analytes, ketones, and gases. Convenient single calibration—m- and o-xylene isomers at 1/2 concentration of other MegaMix® mix components. Deuterated... | |
| Performance evaluation for essential oils and fragrance chemicals. System Suitability Mixture for GC systems and analytical columns. Convenient 0.5mL quantity for easy dilution to recommended working solution. | |
| Ready to use for QuEChERS extractions—no dilutions necessary. Support for GC and HPLC with MS, MS/MS, and selective detectors. Pesticide analysis is fast and simple using QuEChERS methods. Use these... | |
| Reference materials for US EPA Method 528. Fortification solution formulated based on MS sensitivity to each analyte. | |
| Reference mix of the two most common odor-causing compounds. Convenient concentration for purge and trap analysis: 100μg/mL in methanol. | |
| Replaces active hydrogen, reducing polarity and making the compounds more volatile. Increases stability of derivatives. | |
| se to verify the retention time for each compound normally included in a blood alcohol test, and to verify that the compounds are resolved from and do not interfere with... | |
| Separate mixes for surrogates and internal standard. Fortification solution combines surrogates and internal standard. Calibration mixes and all other quality control mixes also available. | |
| Standard for current Massachusetts VPH method: surrogate included. More analyses per ampul—standard with surrogate is 10,000μg/mL. | |
| Supports US Department of Defense base closures and remediation. Mixtures and singles supporting HPLC US EPA Method 8330. Mixtures and singles supporting GC-ECD US EPA Method 8095. Internal standards and... | |
| Technical training on method is available. Complete data pack available for audit compliance. | |
| Use to verify the retention time for each compound normally included in a blood alcohol test, and to verify that the compounds are resolved from and do not interfere with... |
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