Chromatography Guide for

Transcription

1 Chromatography Guide for Environmental Environmental Testing Testing

2 Our Commitment to Environmental Testing In recent years, there has been a rapid, worldwide increase in environmental testing. The sudden emergence of hybrid vehicles and the recent trend towards biofuels highlight the growing concern for environmental pollutants. As the focus on environmental contaminants and cleanup has increased, there is heightened demand for more sensitive analytical tests to measure the amount of pollutants in the environment. Since 98, Phenomenex has been committed to developing a broad range of products that will help companies accurately and reliably identify and quantify these contaminants. II

3 Table of Contents PAGE Specialized Products for Environmental Testing Sample Preparation / SPE HPLC Analysis GC Analysis Environmental Applications Total Petroleum Hydrocarbon (GROs and DROs) Diesel Fractionation Methods Pesticides by GC Polynuclear Aromatic Hydrocarbons (PAHs) by HPLC and GC/MS Carbamate Pesticides by HPLC... 8 Explosives by HPLC... 9 Volatile Organics (VOCs) by GC/MS Semi-Volatiles (SVOs) by GC/MS Ordering Information Sample Preparation / SPE Products GC Columns GC Accessories HPLC Columns... 3 III

4 If Phenomenex products in this brochure do not provide at least an equivalent separation as compared to other products of the same phase and dimensions, return the product with comparative data within 45 days for a FULL REFUND. IV

5 Sample Preparation / SPE HPLC Analysis GC Analysis SPECIALIZED PRODUCTS for Environmental Testing

6 Sample Preparation / SPE Improved Extraction with Strata SPE Sorbents For removal of target analytes from the matrix Many government agencies have approved the removal of target analytes from various matrices using Solid Phase Extraction (SPE), also referred to as Liquid Solid Extraction (LSE), in place of traditional Liquid-Liquid Extraction (LLE) methods for extraction and cleanup procedures. Strata SPE sorbents can extract, cleanup, and concentrate all in one method that can save you hours of work per sample. Common Methods for Initial Extraction Reversed Phase SPE Advantages over LLE Save time and money with extraction, cleanup, and concentration in one method L Sample Reversed Phase SPE ml Concentrate and Cleanup Process multiple samples at one time Improve results with higher recoveries Reduce sample contamination Soxhlet LLE Extraction Effective Samp Reduce solvent consumption Recommended Sorbents Strata SDB-L (Styrene-divinylbenzene) Strata C8-E (Silica-based) Strata -X (Polymeric Sorbent) Use Isolating target organic analytes from aqueous samples Extracting desired polars and non-polars e.g. organochlorine pesticides, phthalate esters, explosives, etc. from aqueous matrices including groundwater, wastewater, etc. 00 ml Soil Sample LLE Extraction Soxhlet ml Concentrate and Cleanup Successful sample preparation is key to sample re-tests. Environmental sample to work with due to the high level of necessary to achieve the required dete (water, soil, or tissue), environmental cleanup procedure in order to remove un target analytes. Phenomenex s Strata S your sample preparation needs. EPA 3535 Also referred to as liquid-solid extraction (LSE) in EPA Drinking Water methods. 00 ml Sample ml Concentrate and Cleanup LLE

7 Sample Preparation / SPE Removal of Contaminants with Further Cleanup Using Strata SPE Remove contamination and improve method stability and results Decrease LC and GC system maintenance with cleaner samples Depending on the source, environmental samples can contain any number of interferences, from hydrocarbons and PCBs to acids and bases. When monitoring biological samples, there may be the further complication of removing the high molecular weight fats and proteins before analysis. No matter what the extraction procedure, effective removal of these contaminants using Strata SPE sorbents is the key to reducing system maintenance. Strata SPE sorbents are specifically designed, engineered, and manufactured for optimal cleanup of any extract. Final Cleanup by SPE ml Sample Normal Phase SPE 00 µl Sample Recommended Sorbents Use le Preparation achieving consistent results and fewer s can be some of the most challenging contamination and the large volumes ction limits. Regardless of the matrix samples typically require a general wanted interferences and concentrate PE Products are designed to meet all of Strata Alumina-N (AL-N) EPA 360 Strata Florisil (FL-PR) EPA 360 Strata Silica (Si-) EPA 3630 Strata EPH (Silica-based) (Extractable Petroleum Hydrocarbons) Removal of polar contaminants from sample extracts; cleanup of non-polar analytes such as organochlorine pesticides, polynuclear aromatic hydrocarbons (PAHs), nitrosamines, etc. Cleanup of extracts that saves time and labor processing multiple samples simultaneously Removal of polar contaminants from sample extracts; cleanup of non-polar analytes such as organochlorine pesticides, polynuclear aromatic hydrocarbons (PAHs), nitrosamines, etc. Pesticide residue grade yields superior efficiency and purity for cleanup of sample extracts Removal of polar contaminants from sample extracts; cleanup of non-polar analytes such as organochlorine pesticides, polynuclear aromatic hydrocarbons (PAHs), nitrosamines, etc. High purity silica for superior cleanup efficiency of sample extracts Remove polar contaminants faster than with standard silica and without flow problems Fractionate aliphatic from aromatic hydrocarbons Reduce phthalate contamination using Teflon -coated SPE tubes 3 Sepra Bulk Silica Gel Removal of polar contaminants for cleanup of extracts Sepra Bulk Florisil Consistently pure bulk silica with extensive QC Sepra Bulk Alumina-N Contact Phenomenex or your local Phenomenex distributor for additional SPE products and applications.

8 HPLC Analysis Luna High Performance Silica-based Columns Industry benchmark for HPLC columns Wide ph stability for long column lifetime Extensive method validation document for proven reproducibility Luna has found a place as one of the world s top reversed phase columns because it provides a measurable improvement over many HPLC columns for two important chromatographic properties: resolution and peak shape. The excellent performance of Luna columns is not simply the result of ultrapure, metal-free silica (99.99 % purity). It is the result of meticulous care given to the quality control of surface smoothness, pore structure and pore consistency to ensure particles of uniform structure and enhanced mechanical strength. 4 Analysis Recommended Solution Page Carbamate Pesticides by HPLC Luna CN (Cyano) 8 Explosives by HPLC (Confirmation Column) Luna Phenyl-Hexyl 9 Improved Selectivity with Though GC is typically used for most suited for certain analyses, such as carb Luna and Synergi columns provide an im Both provide great peak shape, better environmental samples. Contact Phenomenex or your local Phenomenex distributor for additional HPLC products and applications.

9 HPLC Analysis Synergi - Advancing LC Selectivity Scientists worldwide are using Synergi columns to simplify their HPLC method development. With four unique phases in its portfolio, Synergi columns are designed to provide advanced selectivity options for all types of environmental analysis. Analysis Recommended Solution Page Explosives by HPLC (Primary Column) Synergi Hydro-RP 9 Polynuclear Aromatic Hydrocarbons by HPLC Synergi Max-RP 6 Synergi Max-RP C TMS Endcapped Excellent for basic compounds at neutral ph Advancing LC Selectivity Synergi Hydro-RP C8 Polar Endcapped Strong non-polar and polar retention High density ligands and extensive endcapping ensure sharp peaks Polar endcapping provides added retention for polar compounds Quality HPLC Columns TMS TMS Aq Aq 5 environmental testing, HPLC is better amates and explosives. Phenomenex s proved solution for this type of testing. resolution and higher sensitivity for Embedded polar group compliments C8 ligand with balanced polar selectivity Ultra-pure Silica Synergi Fusion-RP C8 Polar Embedded Balanced non-polar and polar performance TMS Aq TMS endcapping ensures sharp peaks Aq TMS Ultra-pure Silica Synergi Polar-RP Phenyl Ether-Linked For polar and aromatic mixtures Ether linkage increases aromaticity of the phenyl group and also provides π-π interactions with conjugated compounds Aq Aq Polar endcapping provides added retention for polar compounds Ultra-pure Silica Ultra-pure Silica

10 GC Analysis Zebron GC Columns Provide Resolution for Environmental Analysis Extended column lifetime Unsurpassed high temperature stability Exceptional low bleed and column activity Our commitment to quality is what makes Zebron GC columns one of the fastest growing GC column lines on the market. Each and every column you receive undergoes an exhaustive QC check process that ensures all columns provide the highest level of performance. Column Bleed Comparison Test by MS Detection MS C E R T I F I E D 360 C Zebron ZB-5 Equivalent column from leading competitors: Varian FactorFour, VF-5ms 3 J&W DB-5ms 4 Agilent HP-5ms 5 Restek Rtx-5Sil MS 40 C 80 C 30 C 340 C Thousands Dimensions: 30 meter x 0.5 mm x 0.5 μm Injection: 5 C with a constant flow of. ml/min of helium Oven Program: 40 C for 0 min to /min for 0 min to /min for 0 min to /min for 0 min to /min for 0 min Detector: MS, Scan range: amu Testing conditions were similar for all columns. All columns were new and obtained from the original manufacturer or its authorized channels. Data provided by Phenomenex in-house evaluations and represents bleed values obtained after hours of conditioning. Enhanced Resolution wi In the last 5 years, not much has chang However, technology is our passion and t recognition for its new products that a challenging environmental methods min

11 GC Analysis Phenomenex s Zebron 5 %-Phenyl or 5 %-Phenyl-Arylene phases are well suited for the vast majority of environmental methods. Selecting the proper 5 % phase for your analysis depends on your needs. All of our 5 % phases utilize one of two main types of chemistries: 5 %-Phenyl or 5 %-Phenyl-Arylene. The differences between the two phases can be slight but significant to the chromatography result. In Phenyl-Arylene phases, the phenyl ring is incorporated into the polymer backbone creating a web-like network which compounds must negotiate in order to interact with the stationary phase. Since the access to the phenyl rings is more limited, compounds with a geometry that fits into the polymer network will tend to interact more strongly with the phenyl in the stationary phase. Resolution differences are most commonly observed when analyzing multi-ring aromatics such as PAHs and PCBs due to their rigid structure. However, resolution differences can also be observed for other aromatic compounds. ZB-5, ZB-5MSi, ZB-5HT Ch 3 Si O Si O Ch 3 95 % Dimethylpolysiloxane Ch 3 ZB-5ms 5 % Phenyl Ch 3 Si O Si O Ch 3 Ch 3 95 % Dimethylpolysiloxane 5 % Phenyl-Arylene Application Phase/ Temperature Limits Features Benefit Equivalent To th Zebron GC Columns ed in the field of gas chromatography. he Zebron brand is gaining international re specially designed for today s most General use with both MS & non-ms detectors Great for non-active compounds High-temperature applications, dirty samples, long-chain hydrocarbons, high boilers, waxes, fuels ZB-5 5 %-Phenyl- 95 %-Dimethylpolysiloxane Temperature Limits: -60 to 360/370 C ZB-5HT 5 %-Phenyl- 95 %-Dimethylpolysiloxane Temperature Limits: -60 to 400/430 C High stability Low bleed phase (MS Certified) Lower cost Award winning 430 C stable phase Improved polyimide coating = flexible tubing after prolonged use above 400 C Low bleed phase (MS Certified) Versatile, lower cost column for general applications with various detectors Increased temperature stability leads to improved column lifetime saving time & money Remove contaminants using high temperature bake outs Replaces problematic metal columns HP-5, DB-5, Rtx-5, SPB-5, CP-Sil 8 CB, AT-5, BP5, Equity5, BPX5 DB-5ht, VF-5ht, Stx-5HT, XTI-5HT 7 The analysis of active compounds such drugs, amines, or acids that exhibit poor peak shape Suitable for MS sensitive analysis ZB-5MSi 5 %-Phenyl- 95 %-Dimethylpolysiloxane Temperature Limits: -60 to 360/370 C New proprietary deactivation process decreases column activity Aggressive phase cross linking results in very low bleed levels (MS Certified) Improved peak shape for acids, bases, and drug compounds Extend performance for active compounds Higher temperature limits allow for removal of column contamination HP-5ms, HP-5msi, Rxi-5ms, Rtx-5ms, AT-5ms, DB-5 Semi-volatile mixtures containing acids, bases, and neutrals Aromatics, PAH, or PCBs ZB-5ms 5 %-Phenyl-Arylene- 95 %-Dimethylpolysiloxane Temperature Limits: -60 to 35/350 C Arylene Matrix Technology TM (AMT) provides highly cross linked phenyl-arylene phase Slightly different selectivity to non-arylene 5-type phases Phase chemistry reduces back-biting and lowers column bleed Phenyl-Arylene bonded phase improves resolution of aromatic compounds DB-5ms, DB-5.65, DB-5ms EVDX, VF-5ms, CB-Sil 8 CB MS, Rtx-5 SilMS General MS applications Highly deactivated MS Certified Reduced activity for acidic and basic compounds leads to better quantitation Contact Phenomenex or your local Phenomenex distributor for additional GC products and applications.

12 GC Analysis Specialized GC Columns for Environmental Testing In addition to the standard 5 %-phenyl phase columns, Phenomenex offers several Zebron GC column phases specially designed to provide optimum selectivity for a variety of environmental compounds. Since each analysis is unique, we can help you determine the best phase to use in order to resolve your sample. 8 ZB-MultiResidue - & - Improved Analysis of Pesticides, Herbicides and Insecticides Temperature Limits: -60 to 30/340 C (Isothermal/TPGC) ZB-MultiResidue GC columns have been optimized for pesticides, herbicides, or insecticides analysis. These columns have an orthogonal selectivity that allows them to be used together in dual column confirmation analysis. Both phases are also MS Certified, so they can be used on MS to confirm results or for multi-pesticide residue screening methods. ZB-64 Enhanced Resolution of VOCs Temperature Limits: -0 to 60 C Specifically designed for the separation of volatile organic compounds (VOCs), the Zebron ZB-64 column has an increased temperature limit over other Cyanopropylphenyl phases. This helps to speed up run times and re-equilibration. ZB-XLB Ideal for Identifying Unknown Contaminants Temperature Limits: 30 to 340/360 C (Isothermal/TPGC) The Zebron ZB-XLB is a unique, low-polarity si-arylene GC column. Engineered specifically for bleed-sensitive detectors such as mass spectrometers, these new columns are ideal for resolving complex samples and identifying unknown contaminants. This column also provides alternative selectivity to standard 5-type phases. ZB-50 Rugged Column for General Screening of Environmental Compounds Temperature Limits: 40 to 30/340 C (Isothermal/TPGC) The Zebron ZB-50 is more rugged than other polar phases. With a temperature limit of 340 C, this column provides longer lifetime and allows for high-temperature bakeout to remove contaminants. In addition, the Zebron ZB-50 column is inert, which minimizes analyte adsorption and improves efficiency and reproducibility. Zebron GC columns are also available in other standard phases. Please inquire with your Phenomenex GC Specialist for more details.

13 Total Petroleum Hydrocarbon (GROs and DROs) Diesel Fractionation Methods Pesticides by GC Polynuclear Aromatic Hydrocarbons (PAHs) by HPLC and GC/MS Carbamate Pesticides by HPLC Explosives by HPLC Volatile Organics (VOCs) by GC/MS Semi-Volatiles (SVOs) by GC/MS Applications

14 Total Petroleum Hydrocarbon (GROs) Enhanced Gasoline Range Organics (GROs) Separation by Zebron ZB-5ms and ZB-WAX Enhanced separation by boiling point Runs completed in under 7 minutes MTBE in Gasoline BTEX in Under 6 Minutes! App ID min Column: Zebron ZB-5ms Dimensions: 30 meter x 0.5 mm x.00 μm Part No.: 7HG-G00- Injection: Split 60 C, 0.5 μl Carrier Gas: ml/min (constant flow) Oven Program: 35 C for 3 min to 00 5 C/min Detector: MSD; amu Sample: Analytes were 50 ppm in methanol. Ethanol 9. Methylcyclopentane. Isopropyl alcohol 0. Isobutyl alcohol 3. tert-butanol. tert-pentanol 4. -Propanol.,-Dimethoxyethane 5. Methyl tert butyl ether (MTBE) 3. Benzene 6. Isopropyl ether 4. -Butanol 7. -Butanol 5. -Methoxy--methyl butane (TAME) 8. Ethyl tert butyl ether (ETBE) App ID min Column: Zebron ZB-WAX Dimensions: 30 meter x 0.3 mm x 0.50 µm Part No.: 7HM-G007-7 Injection: Split 5 C, 0. µl Carrier Gas: ml/min (constant flow) Oven Program: 60 C to 75 5 C/min to 90 3 C/min (for 3 min) Detector: 300 C Sample:. Pentane 9. m-xylene. Heptane 0. Dodecane 3. Solvent (methylene chloride). o-xylene 4. Benzene 5. Decane 6. Toluene 7. Ethylbenzene 8. p-xylene Fast Analysis of Total P Environmental contamination from fue countries. The contamination often come pumps, spilled oil on pavement, motor f (UST), or home and commercial heating samples can be separated into two ma (GROs) and Diesel Range Organics (DRO run times of both GROs and DROs. MTB 7 minutes and diesel fuel in just over 0

15 Total Petroleum Hydrocarbon (DROs) Fast Diesel Range Organics (DROs) by Zebron ZB-5HT Inferno High temperature (430 C) limit for long lifetime Bake off contaminants and eliminate carry-over Time Saving Tip Rapid analysis of DROs can be achieved by using a Zebron ZB-5HT Inferno GC column. The column s high thermal stability (430 ºC) allows you to run your oven at a high temperature while reducing run time. Fast H53 Analysis of Diesel Fuel etroleum Hydrocarbon Fast analysis in just over 0 minutes! l leaks or spills is a problem in many s from various sources such as gasoline uel station underground storage tanks oil storage tanks. The analysis of fuel in fractions: Gasoline Range Organics s). Zebron GC columns can provide fast E and BTEX are completed in less than minutes. App ID min Column: Zebron ZB-5HT Inferno Dimensions: 5 meter x 0.3 mm x 0.0 μm Part No.: 7EM-G05-0 Injection: 63 ºC, 0. μl Carrier Gas: ml/min (constant flow) Oven Program: 60 ºC to ºC/min Detector: 400 ºC Sample: Diesel fuel was 00 ppm in dichloromethane with internal standards at 50 ppm.. Decane (C0). Tetracontane (C40)

16 Diesel Fractionation Methods High Recovery of Diesel Fractionation with Strata EPH Selectively elute aliphatics and aromatics Fast flow rates for increased productivity Reduce processing time by up to 50 % without using vacuum Significant reduction of contamination from plasticizers, such as BHT Reduced BHT Contamination Strata EPH Conventional silica-gel BHT concentration (ppm) Lower levels of BHT contamination in comparison to conventional silica gel SPE tubes. Aliphatic Fraction Aromatic Fraction SPE Method Sorbent: Part No.: Condition: Load: Elute: Concentrate: Strata EPH, 5 g/0 ml 8B-S03-LEG 30 ml of hexane ml of EPH standard containing a blank, 5 ppm, and 50 ppm sample of aliphatic, aromatic, and surrogate The aliphatic fraction was eluted with ml of hexane. The aromatic fraction was eluted with 0 ml of methylene chloride. Concentrate to a final volume of ml and analyze by GC Table. Aromatic fraction data. RSD for aromatic = 8.8 % Peak Compound % Recovery % RSD (n=3) Retention Time (min) Naphthalene* Methylnaphthalene* Fluorobiphenyl (Frac Surr) Acenaphthalene Bromonaphthalene (Frac Surr) Acenaphthene Phthalate Fluorene Phanthrene Anthracene o-terphenyl (Surr) a-Androstane Fluoranthene Chloro-Octadecane (Surr-Aliphatic) Pyrene Benz[a]anthracene Chrysene Benzo[b]fluoranthene Benzo[k]fluoranthene Benzo[a]pyrene Indeno[,,3-cd]pryene Dibenz[a,h]anthracene Benzo[g,h,i]perylene GC % RSD Table. Aliphatic fraction data. RSD for C 9 -C 8 Class = 5.3 %. RSD for C 8 -C 36 Class = 3.8 % Peak Compound % Recovery % RSD (n=3) Retention Time (min) n-nonane (C9) n-decane (C0) n-dodecane (C) n-tetradecane (C4) Butylhydroxytoluene (BHT).35 6 n-hexadecane (C6) n-octadecane (C8) n-nonadecane (C9) n-eicosane (C0) a-Androstane (IS) Chloro-Octadecane (Surr) 9.67 n-docodane (C) n-tetracosane (C4) n-hexacosane (C6) n-octacosane (C8) n-triacotane (C30) n-hexatriacontane (C36) *Naphthalene and -methylnaphthalene are subject to reduced recoveries due to bleed into the aliphatic fraction and loss by evaporation. GC % RSD Reduced Phthalate Contamin In an effort to provide better information sample, many areas have adopted fra the aliphatic and aromatic fractions to b developed Strata EPH, a specialized S problems associated with traditional recoveries and phthalate contaminatio to provide fast, consistent flow rates, w efficient fractionation. The increased fl thus increasing productivity.

17 Diesel Fractionation Methods Accurate GC Quantitation of Diesel Fractionation Methods Using the Zebron ZB-5ms Baseline resolution of all aliphatic fraction compounds from contaminants, internal standards, and surrogates Enhanced resolution of aromatic fraction allows for more accurate quantitation Great resolution of all target peaks from each other and from the internal standards and surrogates Aliphatic Fraction Aromatic Fraction ation of Diesel Fractionation App ID App ID about the toxicological impact of a fuel ctionation methodologies which allow e determined separately. Phenomenex PE sorbent designed to overcome the silica gel fractionation, such as low n. The sorbent was specially designed hile still maintaining high recovery and ow rate reduces your processing time, min Conditions the same for both runs Column: Zebron ZB-5ms Dimensions: 30 meter x 0.3 mm x 0.5 μm Part No.: 7HM-G00- Injection: 85 C, μl Carrier Gas: 3.0 ml/min (constant flow) Oven Program: 60 C for min to 90 8 C/min for 6.75 min Detector: 35 C Sample:. C a-Androstane (IS). C0. -Chloro-Octadecane (Surr) 3. C. C 4. C4 3. C4 5. Butylhydroxytoluene 4. C6 6. C6 5. C8 7. C8 6. C30 8. C9 7. C36 9. C min Sample:. Naphthalene 3. Fluoranthene. -Methylnaphthalene 4. -Chloro-Octadecane (Surr-aliphatic) 3. -Fluorobiphenyl (Frac Surr) 5. Pyrene 4. Acenaphthalene 6. Benz[a]anthracene 5. -Bromonaphthalene (Frac Surr) 7. Chrysene 6. Acenaphthene 8. Benzo[b]fluoranthene 7. Phthalate 9. Benzo[k]fluoranthene 8. Fluorene 0. Benzo[a]pyrene 9. Phanthrene. Indeno[,,3-cd]pryene 0. Anthracene. Dibenz[a,h]anthracene. o-terphenyl (Surr) 3. Benzo[g,h,i]perylene. 5-a-Androstane

18 Pesticides by GC Enhanced Resolution of Pesticides with Zebron MultiResidue - & - GC Columns Inert for the sensitive pesticides such as Endrin and DDT Low bleed for sensitive analysis Optimized for pesticides and herbicides Organochlorine Pesticides ZB-MR-, EPA 808 Organochlorine Pesticides ZB-MR ,8, 0 9, ,7 4 App ID min App ID , , min Specialized GC Column Conditions the same for both runs Column: Zebron MultiResidue- Zebron MultiResidue- Dimensions: 30 meter x 0.3 mm x 0.5 µm 30 meter x 0.3 mm x 0.5 µm Part No.: 7HM-G06-7 7HM-G07- Injection: 3 C, µl Carrier Gas: ml/min (constant flow) Oven Program: 0 C for 0.5 min to 0 30 C/min to C/min for min Detector: 340 C Sample: All analytes are 50 ppb in isooctane. DBCP. Alachlor 3. Endosulfan I 34. Endrin aldehyde. Hexachlorocyclopentadiene 3. d-bhc 4. 4,4 -DDE 35. 4,4 -DDT 3. Etridiazole 4. Chlorothalonil 5. Dieldrin 36. Endosulfan sulfate 4. Chloroneb 5. Heptachlor 6. Chloropropylate 37. Captafol 5. Propachlor 6. DCPA (Dacthal) 7. Chlorobenzylate 38. Methoxychlor 6. Diallate 7. Aldrin 8. Endrin 39. Endrin ketone 7. a-bhc 8. Heptachlor epoxide 9. Nitrofen 40. Permethrin 8. Hexachlorobenzene 9. Captan 30. 4,4 -DDD 4. Permethrin isomer 9. g-bhc 0. trans-chlordane (gamma) 3. Endosulfan II 0. b-bhc. cis-chlordane (alpha) 3. Kepone. Dichlone. trans-nonachlor 33. Trithion The use of many pesticides has been lim and environmental risks. However, t has left many sites heavily contamina pesticides are sensitive to system act be a significant problem when working detectors such as ECD. Zebron Mult proprietary deactivation step and prov most active compounds.

19 Pesticides by GC Organophosphorous Pesticides ZB-MR- 37 EPA Nitrogen and Phosphorous Pesticides Please inquire about conditions ZB-5MSi 0 for Pesticides Analysis ited or discontinued due to the health he persistence of these compounds ted and in need of remediation. Many ivity and readily breakdown. This can with low level samples and sensitive iresidue columns have undergone a ide excellent peak shape for even the App ID 68 App ID , ,8 3, Conditions for Organophosphorous Pesticides (App ID 68) on ZB-MR , Dimensions: 30 meter x 0.3 mm x 0.50 µm Injection: 03 C, µl Carrier Gas: ml/min (constant flow) Oven Program: 00 C for 0.5 min to 80 0 C/min to 40 6 C/min to 30 5 C/min for min Detector: 340 C Sample: Analytes at ppm in dichloromethane. Columns connected using a 5 m Z-Guard and a Y-splitter Dichlorvos 3. Demeton 5. Methyl parathion 37. Merphos oxide (tribufos). Mevinphos 4. Terbuphos 6. Malathion 38. Ethion 3. Trichlorfon 5. Diazinon 7. Fenitrothion 39. Fensulfothion 4. TEPP (Tetraethyl Pyrophosphate) 6. Dimethoate 8. Chlorpyrifos 40. Contaminant 5. Demeton isomer 7. Fonofos 9. Fenthion 4. Carbophenothion 6. Thionazin 8. Phosphamidon isomer 30. Trichloronate 4. Famfur 7. Ethoprop 9. Disulfoton 3. Parathion 43. EPN Sulfotep 0. Dichlofenthion 3. Merphos 44. Phosmet 9. Naled. Phosphamidon 33. Chlorfenvinphos 45. Leptophos 0. Dicrotophos. Chlorpyrifos methyl 34. Crotoxyphos 46. Azinphos methyl. Phorate 3. Ronnel 35. Stirofos 47. Azinphos ethyl. Monocrotophos 4. Aspon 36. Tokuthion 48. Couphomos min Organophosphorous Pesticides Please inquire about conditions ZB-MR EPA 84 min App ID 6549 App ID 6759, ,3 4 7, min 4 Conditions for Chlorinated Herbicides (App ID 6759) on ZB-XLB Dimensions: 30 meter x 0.3 mm x 0.5 µm Injection: 50 C, µl Carrier Gas: 3 33 Chlorinated Herbicides ZB-XLB EPA 85A 36 37,38 34, , , ml/min (constant flow) Oven Program: 50 C for 0.5 min to 00 5 C/min to 30 C/min for min Detector: 300 C Sample: Analytes at 0.5 ppm in Hexane. Dalapon. Contaminant. 3,5-Dichlorobenzoic acid 3. Silvex 3. 4-Nitrophenol 4.,4,5-T 4. DCAA (Surr) 5. Chloramben 5. Dicamba 6. Dinoseb 6. MCPP 7.,4-DB 7. MCPA 8. Bentazone 8. DBOB (IS) 9. Picloram 9. Dichloroprop 0. DCPA 0.,4-D. Acifluorfen. Pentachlorophenol 55 57, , , min

20 Polynuclear Aromatic Hydrocarbons (PAHs) Sharp Peak Shapes with Quality HPLC Columns Synergi Max-RP provides high efficiency and narrow peaks with a unique C bonded phase Envirosep -PP gives additional separation of difficult compounds High Recovery and Clean Extracts with Strata -X SPE Sorbent Compound Concentration (ng/ml) % Recovery % RSD (n=3) Fluoranthene Pyrene Benz[a]anthracene Chrysene Benzo[b]fluoranthene Benzo[a]pyrene PAHs in Drinking Water SPE Method Sorbent: Part No.: Condition: Load: Wash Dry: Elute: Reconstitute: Reconstitute: Strata-X, 60 mg/3 ml 8B-S00-UBJ ml dichloromethane, followed by ml methanol, followed by ml water 0 ml tap water spiked with analytes ml D. I. Water min under vacuum x ml dichloromethane Spike 00 μl of 0 μg/ml benzo[g,h,i] perylene and dry down under 40 C Add 00 μl dichloromethane PAHs with Surrogate Standards 6 App ID mau Time Column: Synergi 4 μm Max-RP Dimensions: 50 x 4.6 mm Part No. : 00G-4337-E0 Mobile Phase: A = Water, B = Acetonitrile Gradient: A/B (65:35) hold min to A/B (0:00) in 4 min. Hold 0 min Flow Rate:.5 ml/min Detection: 54 nm Temperature: Ambient Sample:. Naphthalene 9. Benz[a]anthracene. Acenaphthylene 0. Chrysene 3. Acenaphthene. Benzo[b]fluoranthene 4. Fluorene. Benzo[k]fluoranthene 5. Phenanthrene 3. Benzo[a]pyrene 6. Anthracene 4. Dibenzo[a,h]anthracene 7. Fluoranthene 5. Benzo[g,h,i]perylene 8. Pyrene 6. Indeno[,,3-cd]pyrene EPA 550 EPA min App ID 5300 Column: EnviroSep -PP Dimensions: 5 x 4.6 mm Part No. : 00E-309-E0 Mobile Phase: A = Water, B = Acetonitrile Gradient: A/B (60:40) to A/B (0:00) in 5 min Flow Rate: ml/min Detection: Programmed fluorescence; 0 minutes Exλ: 40 nm Emλ: 45 nm; 6 minutes Exλ: 54 nm Emλ: 395 nm Sample: 6 component PAH mixture with 3 surrogates, 0 µl. Naphthalene 9. Benz[a]anthracene. Acenaphthene 0. Chrysene 3. Flourene. Benzo[e]pyrene* 4. Phenanthrene. Benzo[b]fluoranthene 5. Anthracene 3. Benzo[k]fluoranthene 6. Fluoranthene 4. Benzo[a]pyrene 7. Pyrene 5. Dibenzo[a,h]anthracene 8. p-terphenyl* 6. Benzo[g,h,i]perylene *Surrogate Standards Specialized Solutions fo Polynuclear Aromatic Hydrocarbons (P pollutants (POPs) that are carcinogenic potential health risk at low levels, PAH types of products. Phenomenex offers s techniques depending on the needs of a

21 Polynuclear Aromatic Hydrocarbons (PAHs) Enhanced Resolution of PAHs on Zebron ZB-5ms Arylene backbone provides great separation of aromatic PAH isomers Enhanced resolution of Benzo[b] and Benzo[k]fluoranthene isomers Low bleed levels allow for maximum MS sensitivity Run time cut in half by using the fast GC dimensions Time Saving Tip Use a Zebron Guardian column to further protect your column and extend its lifetime. This out-of-the-box, built-in solution will trap contaminates and prevent stationary phase damage. Guaranteed not to leak, it eliminates the need for glass tubing, which will contract and expand during the oven cycle. Polynuclear Aromatic Hydrocarbons (PAHs) PAHs r Aromatic Compounds , , AHs) are a class of persistent organic and mutagenic in humans. Due to their testing is required for many different olutions for both GC and HPLC analysis laboratory. App ID min Column: Zebron ZB-5ms Dimensions: 0 meter x 0.8 mm x 0.8 μm Part No. : 7FD-G00-08 Injection: Split 85 C, μl Carrier Gas: ml/min (constant flow) Oven Program: 30 C for 0.5 min to 50 5 C/min to 70 6 C/min to 30 5 C/min for 4 min Detector: 80 C Sample:. Naphthalene 4. Benzo[k]fluoranthene. -Methylnaphthalene 5. Benzo[a]pyrene 3. Acenaphthalene 6. 3-Methylcholanthrene 4. Acenaphthene 7. Dibenz[a,h]acridine 5. Fluorene 8. Dibenz[a,j]acridine 6. Phenanthrene 9. Indeno[,,3-cd]pyrene 7. Anthracene 0. Dibenz[a,h]anthracene 8. Fluoranthene. 7H-Dibenzo[c,g]carbazole 9. Pyrene. Benzo[g,h,i]perylene 0. Benz[a]anthracene 3. Dibenzo[a,e]pyrene. Chrysene 4. Dibenzo[a,i]pyrene. Benzo[b]fluoranthene 5. Dibenzo[a,j]pyrene 3. Benzo[j]fluoranthene 3 45 App ID min Column: Zebron ZB-50 Dimensions: 30 meter x 0.5 mm x 0.5 μm Part No.: 7HG-G004- Injection: Pulsed Splitless for C, µl Carrier Gas: ml/min (constant flow) Oven Program: 80 C to 65 5 C/min to 90 5 C/min to 330 C at 0 C/min for 5 min Detector: 330 C; amu Sample:. Naphthalene. -Methylnaphthalene 3. Acenaphthalene 4. Acenaphthene 5. Fluorene 6. Phenanthrene 7. Anthracene 8. Fluoranthene 9. Pyrene 0. Benzo[c]fluorene. Benz[a]anthracene. Chrysene 3. Cyclopenta[c,d]pyrene 4. 5-Methylchrysene 5. Benzo[b]fluoranthene Benzo[k]fluoranthene 7. Benzo[j]fluoranthene 8. Benzo[a]pyrene 9. 3-Methylcholanthrene 0. Dibenz[a,h]acridine. Dibenz[a,j]acridine. Dibenz[a,h]anthracene 3. Indeno[,,3-cd]pyrene 4. Benzo[g,h,i]perylene 5. 7H-Dibenzo[c,g]carbazole 6. Dibenzo[a,l]pyrene 7. Dibenzo[a,e]pyrene 8. Dibenzo[a,i]pyrene 9. Dibenzo[a,h]pyrene

22 Carbamate Pesticides by HPLC Great Peak Shape with Luna CN HPLC Columns One of the most stable CN (Cyano) columns under both reversed phase or normal phase conditions Reproducible from run-to-run, column-to-column, batch-to-batch ph stable from.5 to 7.0 Carbamate / Urea and Triazine Pesticides High Recovery and Clean Extracts with Strata -X SPE Sorbent 9 Compound Concentration (µg/ml) % Recovery % RSD (n=3) Fenuron Monuron Forchlorfenuron Diuron Siduron SPE Method: Sorbent: Strata-X, 60 mg/3 ml Part No.: 8B-S00-UBJ Condition: ml dichloromethane, followed by ml acetonitrile, followed by ml water Load: ml tap water (spiked with analytes) Wash: ml D. I. Water Dry: min under vacuum Elute: ml of acetonitrile/dichloromethane (:) Reconstitute: Spike 50 μl of linuron (0.0 μg/ml) and dry down under 40 C Reconstitute: Add 00 μl water Carbamate Pesticides a App ID min Column: Luna 3 μm CN 00 Å Dimensions: 00 x 4.6 mm Part No.: 00D-454-E0 Mobile Phase: A = Hexane, B = 80:0 Methylene chloride:methanol Gradient: A/B (95:5) hold 0.5 min to A/B (75:5) in 0.5 min Flow Rate: 5 ml/min Temperature: Ambient Detector: 54 nm Sample:. Prometryn 6. Barban. Propazine 7. Carbaryl 3. Ametryn 8. Tebuthiuron 4. Atrazine 9. Diuron 5. Carbofuran Although most of today s environmen GC/MS, HPLC is traditionally used for pesticides and explosives. Due to their readily analyzed by GC. Carbamates volatile. In addition, some explosives a acid are also not easily detected by GC.

23 Explosives by HPLC Improved Recovery of Explosives with Quality HPLC Columns Synergi Hydro-RP incorporates polar selectivity with strong hydrophobic retention Luna Phenyl-Hexyl provides orthogonal aromatic selectivity for confirmation of explosives Explosive Mix Using Synergi Hydro-RP Time Saving Tip Use Strata SDB-L for effective sample preparation of explosives. Explosive Mix Using Luna Phenyl-Hexyl EPA EPA nd Explosives by HPLC tal testing is performed using GC or certain analyses, such as carbamate chemistry, these compounds are not are unstable under heat and are not nd related compounds, such as picric App ID min Column: Synergi 4 μm Hydro-RP 80 Å Dimensions: 50 x 4.6 mm Part No.: 00G-4375-E0 Mobile Phase: A = Methanol, B = Water Gradient: A/B (55:45) hold min to A/B (75:5) in 0 min then A/B (55:45) hold 3 min Flow Rate: ml/min Temperature: 5 C Detector: 54 nm Column: Luna 5 µm Phenyl-Hexyl 00 Å Dimensions: 50 x 4.6 mm Part No.: 00G-457-E0 Mobile Phase: A = Methanol, B = Water Gradient: A/B (55:45) hold min to A/B (75:5) in 0 min then A/B (55:45) hold 3 min Flow Rate: ml/min Temperature: 38 C Detector: 54 nm Sample: 00 µl of 00 µg/ml 7 component mix was diluted with 900 µl of 50:50 methanol/water Sample:. Octahydro-,3,5,7-tetranitro-,3,5,7-tetrazocine (HMX) 0. 4-Amino-,6-dinitrotoluene (4-Am-DNT). Octahydro-,3,5,7-tetranitro-,3,5,7-tetrazocine (HMX) 0. 4-Amino-,6-dinitrotoluene (4-Am-DNT). Hexahydro-,3,5-trinitro-,3,5-triazine (RDX). -Amino-4,6-dinitrotoluene (-Am-DNT). Hexahydro-,3,5-trinitro-,3,5-triazine (RDX). -Amino-4,6-dinitrotoluene (-Am-DNT) 3.,3,5-Trinitrobenzene (,3,5-TNB).,6-Dinitrotoluene (,6-DNT) 3.,3,5-Trinitrobenzene (,3,5-TNB).,6-Dinitrotoluene (,6-DNT) 4. Methyl-,4,6-trinitrophenylnitramine (Tetryl) 3.,4-Dinitrotoluene (,4-DNT) 4. Methyl-,4,6-trinitrophenylnitramine (Tetryl) 3.,4-Dinitrotoluene (,4-DNT) 5.,3-Dinitrobenzene (,3-DNB) 4. Pentaerythritol tetranitrate (PETN) 5.,3-Dinitrobenzene (,3-DNB) 4. Pentaerythritol tetranitrate (PETN) 6. Nitrobenzene (NB) 5. -Nitrotoluene (-NT) 6. Nitrobenzene (NB) 5. -Nitrotoluene (-NT) 7. Nitroglycerin (NG) 6. 4-Nitrotoluene (4-NT) 7. Nitroglycerin (NG) 6. 4-Nitrotoluene (4-NT) 8.,4,6-Trinitrotoluene (,4,6-TNT) 7. 3-Nitrotoluene (3-NT) 8.,4,6-Trinitrotoluene (,4,6-TNT) 7. 3-Nitrotoluene (3-NT) 9. 3,5-Dinitroaniline ( 3,5-DNA) 9. 3,5-Dinitroaniline ( 3,5-DNA) Contact Phenomenex or your local Phenomenex distributor for additional HPLC products and applications. App ID min

24 Volatile Organics (VOCs) by GC/MS 5866 High Resolution of VOCs with Zebron ZB-64 Specially designed low bleed phase for analysis of VOCs Available in fast GC dimensions for increased sample throughput Volatile Organics European 637 Red List Volatiles EPA , Time Saving Tip Want to speed up your analysis? Run your method on a 0 meter Zebron ZB-64 to get a run time less than 0 minutes! 54,55 57, , , ,8 30, , , App ID min Column: Zebron ZB-64 Dimensions: 0 meter x 0.8 mm x.00 µm Part No.: 7FD-G005- Injection: Purge and Trap Carrier Gas: Helium (constant flow) Oven Program: 35 C to 0 C Detector: MSD; amu Sample:. Chloromethane. Vinyl chloride 3. Bromomethane 4. Chloroethane 5. Trichlorofluoromethane 6. Ethanol 7. Dichlorotrifluoroethane 8. Acrolein 9. Trichlorotrifluoroethane 0., -Dichloroethene. Acetone. Methyl iodide 3. Carbon disulfide 4. Methylene chloride 5. t-butanol 6. trans-,-dichloroethane 7. Methyl-t-butyl ether 8. Acrylonitrile 9., -Dichloroethane 0. Vinyl Acetate. Diisopropyl ether. Ethyl-t-butyl ether 3., -Dichloropropane 4. cis-, -Dichloroethene 5. -Butanone 6. Bromochloromethane 7. Chloroform 8. Tetrahydrofuran ,, -Trichloroethane 30., -Dichloropropene 3. Carbon tetrachloride 3., -Dichloroethane-d4 33. Benzene 34., -Dichloroethane 35. t-amyl methyl ether 36. Fluorobenzene 37. Trichloroethene 38., -Dichloropropane 39. Dibromomethane 40. Bromodichloromethane 4. -Chloroethylvinyl ether 4. cis-, 3-Dichloropropene 43. Methyl isobutyl ketone 44. Toluene-d8 45. Toluene 46. trans-, 3-Dichloropropene 47.,, -Trichloroethane 48. Tetrachloroethene 49., 3-Dichloropropane 50. -Hexanone 5. Dibromochloromethane 5. Ethylene dibromide 53. Chlorobenzene 54.,,, -Tetrachloroethane 55. Ethylbenzene 56. m,p-xylene App ID o-xylene 58. Styrene 59. Bromoform 60. Isopropylbenzene 6. 4-Bromofluorobenzene 6.,,, -Tetrachloroethane 63. Bromobenzene 64.,, 3-Trichloropropane 65. n-propylbenzene 66. -Chlorotoluene 67., 3, 5-Trimethylbenzene Chlorotoluene 69. tert-butylbenzene 70.,, 4-Trimethylbenzene 7. sec-butylbenzene 7., 3-Dichlorobenzene Isopropyltoluene 74., 4-Dichlorobenzene 75. n-butylbenzene 76., -Dichlorobenzene-d4 77., -Dichlorobenzene 78., -Dibromo-3-chloropropane 79.,, 4-Trichlorobenzene 80. Hexachlorobutadiene 8. Naphthalene 8.,, 3-Trichlorobenzene min Column: Zebron ZB-64 Dimensions: 0 meter x 0.8 mm x.00 µm Part No.: 7FD-G005- Injection: Split 50 C, μl Carrier Gas: ml/min (constant flow) Oven Program: 90 ºC Isothermal Detector: 60 C Sample: Static Headspace: 8 μl of.5 % volatiles mix sample in a 0.8 ml limited volume insert inside a.0 ml vial.,-dichloroethylene.,-dichloroethane 3. Chloroform 4.,,-Trichloroethane 5. Carbon tetrachloride 6.,-Dichloroethane 7. Trichloroethylene 8. Tetrachloroethylene Volatile Organics ( Specially designed for the separation increased temperature limit over other time and re-equilibration.

25 Volatile Organics (VOCs) by GC/MS Volatile Organics 4783 EPA 860 App ID 4783 Column: Zebron ZB-64 Dimensions: 60 meter x 0.5 mm x.4 µm Part No: 7KG-G005-7 Injection: Purge and Trap 50 C, µl Oven Program: 40 C for min to 5 0 C/min for 3.5 min Carrier Gas: ml/min (constant flow) Detector: 80 C VOCs) by GC/MS Compound list of chemicals included in this analysis. Peak # Compound Name t R Peak # Compound Name t R Peak # Compound Name t R of VOCs, the Zebron ZB-64 has an similar phases to help speed up run Dichlorodifluoromethane 3.43 Chloromethane Vinyl chloride Bromomethane Chloroethane Trichlorofluoromethane Acrolein 5.8 8,,-Trichloro-,,-Trifluoroethane ,-Dichloroethene Acetone 6.0 Iodomethane 6.9 Carbon disulfide Methyl Acetate Acetonitrile Methylene chloride t-butyl Methyl Ether trans-,-dichloroethene Acrylonitrile ,-Dichloroethane Vinyl Acetate 7.48,-Dichloropropane 8.9 -Butanone cis-,-dichloroethene 8. 4 Bromochloromethane Tetrahydrofuran Chloroform ,,-Trichloroethane Cyclohexane Carbon tetrachloride ,-Dichloropropene 9.0 3,-Dichloroethane-d4 (surr) Benzene ,-Dichloroethane ,4-Difluorobenzene (IS) Trichloroethene Methylcyclohexane ,-Dichloropropane Dibromomethane Bromodichloromethane Chloroethylvinyl Ether.0 4 cis-,3-dichloropropene Methyl--pentanone.4 43 Toluene-d8 (surr).6 44 Toluene trans-,3-dichloropropene Ethyl Methacrylate.98 47,,-Trichloroethane.6 48 Tetrachloroethene.45 49,3-Dichloropropane Hexanone.50 5 Dibromochloromethane.84 5,-Dibromoethane Chlorobenzene-d5 (IS) Chlorobenzene Ethylbenzene ,,,-Tetrachloroethane m,p-xylene o-xylene Styrene Bromoform Isopropylbenzene p-bromofluorobenzene (surr) ,,,-Tetrachloroethane Bromobenzene trans-,4-dichloro--butene ,,3-Trichloropropane n-propylbenzene ,3,5-Trimethylbenzene Chlorotoluene Chlorotoluene tert-butylbenzene 6.3 7,,4-Trimethylbenzene sec-butylbenzene Isopropyltoluene ,3-Dichlorobenzene ,4-Dichlorobenzene-d4 (IS) ,4-Dichlorobenzene n-butylbenzene ,-Dichlorobenzene ,-Dibromo-3-Chloropropane ,,4-Trichlorobenzene Hexachlorobutadiene Naphthalene ,,3-Trichlorobenzene 0.8

26 Semi-Volatiles (SVOs) by GC/MS Rapid Extraction and Cleanup of Semi-Volatiles Contaminant-free extraction with Strata -SDB-L Reliable cleanup with Strata silica-based sorbents Consistent recoveries for various compound classes (amines, phenols, PAHs, etc) Reduce phthalate contamination by using Teflon tubes Eliminate contaminates that often compromise analytical analysis Experimental Conditions Specimen Preparation: SPE Method: Condition: Load: Elution: A 500 ml water sample spiked with the target compounds was acidified with glacial acetic acid (ph = 3.5). The concentration range of ppm, consistent with practical quantitation limits for waste water in EPA Method 870. Add 5 ml methanol, followed by 5 ml deionized water Continually load 500 ml of sample onto the column using the vacuum manifold apparatus as shown in Figure Elute with 5 ml acetone, followed by 5 ml methylene chloride. Collect all elution solvents in a single test tube Analytes of Interest Recommended Cleanup Aniline & aniline derivatives Florisil Phenols Silica Gel, GPC Phthalate esters Alumina, Florisil, GPC Nitrosamines Alumina, Florisil, GPC Organochlorine pesticides & PCBs Alumina, Florisil, GPC Nitroaromatics and cyclic ketones Florisil, GPC Polynuclear aromatic hydrocarbons Alumina, Silica, GPC Haloethers Florisil, GPC Chlorinated hydrocarbons Florisil, GPC Organophosphorus pesticides Florisil EPA Semi-Volatiles (S Large Volume Processing TEFLON OR VACUUM RESISTANT TUBING ADAPTOR CAP Reservoir/Empty Syringe Barrel The large number of semi-volatile org chemical properties, and the wide range complicate the GC analysis. Phenome phenyl-arylene backbone that helps to Benzo[b] and Benzo[k]fluoranthene. Th improves peak shape for compounds su Sample Vacuum Manifold Waste Trap Vacuum Pump

27 Semi-Volatiles (SVOs) by GC/MS Great Sensitivity for Low Level Analysis with Zebron ZB-5ms Extremely low bleed phase that offers good sensitivity for low level analysis Enhanced phase stability leads to long column lifetime Stable response for pentachlorophenol and benzidine EPA 870C... Results Done in 5 mins! , VOs) by GC/MS 0 3 anic (SVO) compounds, their varying of matrices they occur in, significantly nex Zebron ZB-5ms columns have a separate the difficult isomers, such as e proprietary deactivation procedure ch as Pentachlorophenol. App ID min min Column: Zebron ZB-5ms Dimensions: 30 meter x 0.5 mm x 0.5 μm Part No.: 7HG-G00- Injection: Split 50 C, µl Carrier Gas: ml/min (constant flow) Oven Program: 40 C for 0.5 min to 0 C/min to C/min for 3 min Detector: 40 C min Conditions on next page

28 Semi-Volatiles (SVOs) by GC/MS Continued from page 3 Column: Zebron ZB-5ms Dimensions: 30 meter x 0.5 mm x 0.5 μm Part No.: 7HG-G00- Injection: Split 50 C, µl Carrier Gas: ml/min (constant flow) Oven Program: 40 C for 0.5 min to 0 C/min to C/min for 3 min Detector: 40 C App ID min 4 Peak No. Sample Analyte. N-Nitrosodimethylamine. Pyridine 3. -Picoline 4. N-Nitrosomethylethylamine 5. Methyl methanesulfonate 6. N-Nitrosodiethylamine 7. Ethyl methanesulfonate 8. Phenol 9. Aniline 0. Bis(-chloroethyl)ether. -Chlorophenol.,3-Dichlorobenzene 3.,4-Dichlorobenzene 4. Benzyl Alcohol 5.,-Dichlorobenzene 6. -Methylphenol 7. Bis(chloroisopropyl)ether 8. N-Nitrosypyrrolidone 9. 3-Methylphenol; 4-Methylphenol 0. N-Nitroso-di-n-propylamine. Acetophenone. N-Nitrosomorpholine 3. -Toluidine 4. Hexachloroethane 5. Nitrobenzene 6. N-Nitrosopiperidine 7. Isophorone 8. -Nitrophenol 9.,4-Dimethylphenol Peak No. Sample Analyte 30. Benzoic Acid 3. Bis(-chloroethoxy)methane 3.,4-Dichlorophenol 33.,,4-Trichlorobenzene 34. Naphthalene 35. a,a-dimethylphenylamine Chloroaniline 37.,6-Dichlorophenol 38. Hexachloropropene 39. Hexachloro-,3-butadiene 40. N-Nitrosodibutylamine 4.,4-Phenylenediamine 4. 4-Chloro-3-methylphenol 43. Safrole 44. -Methylnaphthalene 45. -Methylnaphthalene 46. Hexachlorocyclopentadiene 47.,,4,5-Tetrachlorobenzene 48. Isosafrole (isomer) 49.,4,6-Trichlorophenol 50.,4,5-Trichlorophenol 5. Isosafrole (isomer) 5. -Chloronaphthalene 53. -Nitroaniline 54.,4-Naphthoquinone 55. Dimethyl phthalate 56.,3-Dinitrobenzene 57.,6-Dinitrotoluene 58. Acenaphthylene Peak No. Sample Analyte Nitroaniline 60. Acenaphthene 6.,4-Dinitrophenol 6. 4-Nitrophenol 63. Pentachlorobenzene 64.,4-Dinitrotoluene 65. Dibenzofuran 66. -Naphthalenamine 67.,3,4,6-Tetrachlorophenol 68. -Naphthalenamine 69. Diethyl Phthalate 70. Fluorene 7. -Methyl-5-nitroaniline 7. 4-Chlorophenyl phenyl ether Nitroaniline 74. 4,6-Dinitro--methylphenol 75. Diphenylamine 76. Azobenzene 77.,3,5-Trinitrobenzene 78. Phenacetin Bromophenyl phenyl ether 80. Hexachlorobenzene 8. Pentachlorophenol 8. 4-Aminobiphenyl 83. Pentachloronitrobenzene 84. Dinoseb 85. Phenanthrene 86. Anthracene 87. Dibutyl phthalate Peak No. Sample Analyte Nitroquinoline-n-oxide 89. Methapyriline 90. Isodrin 9. Fluoranthene 9. Benzidine 93. Pyrene 94. Aramite 95. Aramite (isomer) 96. Dimethylaminoazobenzene 97. Chlorobenzilate 98. 3,3-dimethylbenzidine 99. Benzyl butyl phthalate 00. Kepone 0. -Acetylaminofluorene 0. 3,3 -Dichlorobenzidine 03. Benz[a]anthracene 04. Bis(-ethylhexyl) phthalate 05. Chrysene 06. Di-n-octyl phthalate 07. Benzo[b]fluoranthene 08. Benzo[k]fluoranthene 09. Benzo[a]pyrene 0. 3-Methylcholanthrene. Indeno[,,3-cd]pyrene. Dibenz[a,h]anthracene 3. Benzo[g,h,i]perylene

29 Sample Preparation / SPE Products GC Columns and Accessories HPLC Columns Ordering Information

30 Sample Preparation / SPE Products 6 Strata C8-E Format Tube Giga Tube Sorbent Mass Part Number Unit Price 50 mg 8B-S00-DAK ml (00/box) 00 mg 8B-S00-EAK ml (00/box) 00 mg 8B-S00-EBJ 3 ml (50/box) 00 mg 8B-S00-FBJ 3 ml (50/box) 500 mg 8B-S00-HBJ 3 ml (50/box) 500 mg 8B-S00-HCH 6 ml (30/box) 500 mg 8B-S00-HDG ml (0/box) g 8B-S00-KDG ml (0/box) 5 g 8B-S00-LEG 0 ml (0/box) 0 g 8B-S00-MFF 60 ml (6/box) 0 g 8B-S00-VFF 60 ml (6/box) 50 g 8B-S00-YSN 50 ml (8/box) 70 g 8B-S00-ZSN 50 ml (8/box) Strata Silica (Si-) Sorbent Format Mass Part Number Unit Price Tube 00 mg 8B-S0-EAK ml (00/box) 00 mg 8B-S0-FBJ 3 ml (50/box) 500 mg 8B-S0-HBJ 3 ml (50/box) 500 mg 8B-S0-HCH 6 ml (30/box) g 8B-S0-JCH 6 ml (30/box) Giga Tube 500 mg 8B-S0-HDG ml (0/box) g 8B-S0-KDG ml (0/box) 5 g 8B-S0-LEG 0 ml (0/box) 0 g 8B-S0-MFF 60 ml (6/box) 0 g 8B-S0-VFF 60 ml (6/box) 50 g 8B-S0-YSN 50 ml (8/box) 70 g 8B-S0-ZSN 50 ml (8/box) Strata EPH (specialty phase) Sorbent Format Mass Part Number Unit Price Tube 500 mg 8B-S03-HBJ 3 ml (50/box) Giga Tube 5 g 8B-S03-LEG 0 ml (0/box) Strata C8 Format Tube Giga Tube Sorbent Mass Part Number Unit Price 00 mg 8B-S005-EAK ml (00/box) 00 mg 8B-S005-FBJ 3 ml (50/box) 500 mg 8B-S005-HBJ 3 ml (50/box) 500 mg 8B-S005-HCH 6 ml (30/box) g 8B-S005-JCH 6 ml (30/box) g 8B-S005-KDG ml (0/box) 5 g 8B-S005-LEG 0 ml (0/box) 0 g 8B-S005-MFF 60 ml (6/box) Strata Florisil (FL-PR) (pesticide residue grade) Sorbent Format Mass Part Number Unit Price Tube 500 mg 8B-S03-HBJ 3 ml (50/box) 500 mg 8B-S03-HCH 6 ml (30/box) g 8B-S03-JCH 6 ml (30/box) Giga Tube g 8B-S03-KDG ml (0/box) 5 g 8B-S03-LEG 0 ml (0/box) 0 g 8B-S03-MFF 60 ml (6/box) Strata-X Format Tube Giga Tube Teflon Tube Sorbent Mass Part Number Unit Price 30 mg 8B-S00-TAK ml (00/box) 60 mg 8B-S00-UBJ 3 ml (50/box) 00 mg 8B-S00-FBJ 3 ml (50/box) 500 mg 8B-S00-HBJ 3 ml (50/box) 00 mg 8B-S00-ECH 6 ml (30/box) 00 mg 8B-S00-FCH 6 ml (30/box) 500 mg 8B-S00-HCH 6 ml (30/box) 500 mg 8B-S00-HDG ml (0/box) g 8B-S00-JDG ml (0/box) g 8B-S00-JEG 0 ml (0/box) 00 mg 8B-S00-FDG-T ml (0/box) Strata SAX (strong anion exchange) Sorbent Format Mass Part Number Unit Price Tube 00 mg 8B-S008-EAK ml (00/box) 00 mg 8B-S008-EBJ 3 ml (50/box) 00 mg 8B-S008-FBJ 3 ml (50/box) 500 mg 8B-S008-HBJ 3 ml (50/box) 500 mg 8B-S008-HCH 6 ml (30/box) g 8B-S008-JCH 6 ml (30/box) Giga Tube 500 mg 8B-S008-HDG ml (0/box) g 8B-S008-KDG ml (0/box) 5 g 8B-S008-LEG 0 ml (0/box) 0 g 8B-S008-MFF 60 ml (6/box) 0 g 8B-S008-VFF 60 ml (6/box) Strata Alumina-N (AL-N) Sorbent Format Mass Part Number Unit Price Tube 500 mg 8B-S33-HBJ 3 ml (50/box) g 8B-S33-JCH 6 ml (30/box) Giga Tube g 8B-S33-KDG ml (0/box) Strata SDB-L (styrene-divinylbenzene) Sorbent Format Mass Part Number Unit Price Tube 00 mg 8B-S04-EAK ml (00/box) 00 mg 8B-S04-FBJ 3 ml (50/box) 500 mg 8B-S04-HBJ 3 ml (50/box) 500 mg 8B-S04-HCH 6 ml (30/box) g 8B-S04-JCH 6 ml (30/box) Strata Eco-Screen Sorbent Format Mass Part Number Unit Price Tube g 8B-S046-JBJ 3 ml (50/box) Teflon Giga Tube 5 g 8B-S03-LEG-T 0 ml (0/box) Contact Phenomenex or your local Phenomenex distributor for additional SPE products and applications.

31 Sample Preparation / SPE Products Sepra Bulk Sorbents Phase 00 g Price kg Price Reversed Phase C8-E 04G K-4348 C8-T 04G K-4405 C8 04G K-4406 Phenyl 04G K-4407 CN 04G K-4409 SDB-L 04G-44 04K-44 Normal Phase Silica 04G K-440 FL-PR 04G-44 04K-44 (Florisil Pesticide Residue) Ion Exchange SCX 04G K-443 SAX 04G K-444 NH 04G K-4408 SPE Vacuum Manifolds Part No. Description Unit Price 4 Position Vacuum Manifold* AH0-604 SPE 4-Position Vacuum Manifold Set, complete assembly ea Position Vacuum Manifold* AH0-603 SPE -Position Vacuum Manifold Set, complete assembly ea 0 - Position Tall-Boy Vacuum Manifold AH0-750 SPE 0-Position Tall-Boy Vacuum Manifold, complete assembly ea General Vacuum Manifold Accessories Part No. Description Unit Price AH0-79 Adaptor Caps for, 3 and 6 ml SPE tubes, 5/pk polyethylene, with Luer tip AH Adaptor Caps for, and 0 ml SPE tubes, 5/pk polyethylene, with Luer tip AH Adaptor Caps for 60 ml SPE tubes, polyethylene, 5/pk with Luer tip AH SPE Luer Stopcocks 4/pk AH SPE Drying Attachment for -position manifold ea AH0-605 SPE Drying Attachment for 4-position manifold ea AH Teflon Needles 00/pk Vacuum Manifolds for Processing Samples Stopcock Glass Chamber Collection Rack Vacuum Gauge Valve Assembly Multiple sample processing saves time and money Female Luer inlets fit all male Luer tipped SPE tubes and cartridges Inert Teflon and polypropylene flow path Glass chamber allows easy visual monitoring Adjustable racks accommodate a variety of test tubes, vials and flasks Contact Phenomenex or your local Phenomenex distributor for additional SPE products and applications. 7 * Manifolds include: Vacuum-tight glass chamber, vacuum gauge assembly, polypropylene lid with gasket, male and female luers and yellow end plugs, stopcock valves, collection rack assemblies, polypropylene needles, lid support legs. Waste container included with -postion manifold. Recommended for elution volumes 5 ml () The 0-position Tall Boy Vacuum Manifold Collection Rack includes 4 plates: one base plate, one dimple plate, one small plate and one large plate and three riser bar legs, along with manifold clips to support the plates. The assembly also includes 0 polypropylene needles, 0 stopcocks and 4 black legs to support the lid when taken off the glass block. () The -position Collection Rack consists of 3 support posts, bottom plate, 3 mm plate, 6 mm plate, autosampler plate, volumetric plate, and retaining clips. (3) The 4-position Collection Rack consists of 3 support posts, bottom plate, dimple plate, 3 mm plate, 6 mm plate, and 4 retaining clips. Contact Phenomenex for additional manifold replacement parts.

32 GC Columns ZB-5 ZB-5HT Inferno ZB-5MSi Rugged for general lab use For high-temperature applications, or dirty samples Great for the analysis of active compounds 8 ID (mm) df (µm) Temp. Limits C Part No. Price 5-Meter to 360/370 7EG-G to 360/370 7EG-G to 360/370 7EG-G to 340/360 7EG-G to 360/370 7EM-G to 360/370 7EM-G to 340/360 7EM-G to 360/370 7EK-G to 340/360 7EK-G to 340/360 7EK-G Meter to 360/370 7FD-G Meter to 360/370 7HG-G to 360/370 7HG-G to 360/370 7HG-G to 340/360 7HG-G to 360/370 7HM-G to 360/370 7HM-G to 360/370 7HM-G to 340/360 7HM-G to 360/370 7HK-G to 340/360 7HK-G to 340/360 7HK-G to 340/360 7HK-G Meter to 360/370 7KG-G to 360/370 7KG-G to 360/370 7KG-G to 340/360 7KG-G to 360/370 7KM-G to 340/360 7KM-G to 340/360 7KK-G00-8 Test Mix Zebron ZB-5 AG0-555 ID (mm) df (µm) Temp. Limits C Part No. Price 5-Meter to 400/430 7EG-G to 400/430 7EM-G to 400/430 7EM-G to 400 7EK-G Meter to 400/430 7FD-G Meter to 400/430 7HG-G to 400/430 7HG-G to 400/430 7HM-G to 400/430 7HM-G to 400 7HK-G05-05 Test Mix Zebron ZB-5HT AG0-555 ZB-WAX Excellent for separating polar complex mixtures ID(mm) df(µm) Temp. Limits C Part No. Price 0-Meter to 50/60 7CB-G Meter to 50/60 7EG-G Meter to 50/60 7HG-G to 50/60 7HG-G to 50/60 7HG-G to 50/60 7HG-G to 50/60 7HM-G to 50/60 7HM-G to 50/60 7HM-G to 50/60 7HK-G to 50/60 7HK-G Meter to 50/60 7KG-G to 50/60 7KK-G007- Test Mix Zebron ZB-WAX AG0-558 ID (mm) df (µm) Temp. Limits C Part No. Price 5-Meter to 360/370 7EG-G08-30-Meter to 360/370 7HG-G to 360/370 7HG-G to 360/370 7HM-G to 360/370 7HM-G Meter to 360/370 7KG-G08- Test Mix Zebron ZB-5MSi AG0-836 Suitable for MS sensitive analysis ZB-5ms Perfect for Aromatics, PAHs, or PCBs ID (mm) df (µm) Temp. Limits C Part No. Price 0-Meter to 35/350 7CB-G Meter to 35/350 7EG-G00-0-Meter to 35/350 7FD-G to 35/350 7FD-G to 35/350 7FD-G Meter to 35/350 7HG-G to 35/350 7HG-G to 35/350 7HG-G to 35/350 7HM-G to 35/350 7HM-G to 35/350 7HM-G00-60-Meter to 35/350 7KG-G to 35/350 7KM-G00- Test Mix Zebron ZB-5ms AG If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G00--B.

33 GC Columns ZB-50 Rugged column for general screening of environmental compounds ID (mm) df (µm) Temp. Limits C Part No. Price 5-Meter to 30/340 7EG-G to 30/340 7EG-G to 30/340 7EM-G to 30/340 7EM-G to 30/340 7EK-G Meter to 30/340 7HG-G to 30/340 7HG-G to 30/340 7HM-G to 30/340 7HM-G to 30/340 7HK-G Meter to 30/340 7KG-G to 30/340 7KG-G to 30/340 7KM-G004- Test Mix Zebron ZB-50 AG0-557 ZB-64 Provides enhanced resolution of VOCs ID (mm) df (µm) Temp. Limits C Part No. Price 0-Meter to 60 7FD-G Meter to 60 7HG-G to 60 7HM-G to 60 7HK-G Meter to 60 7KG-G to 60 7KM-G to 60 7KK-G Meter to 60 7LK-G Meter to 60 7NK-G Test Mix Zebron ZB-64 AG0-559 ZB-MultiResidue - & - Delivers improved analysis of pesticides, herbicides and insecticides ZB-MR- ID (mm) df (µm) Temp. Limits C Part No. Price 30-Meter to 30/340 7HG-G to 30/340 7HM-G to 30/340 7HK-G06-7 ZB-MR- ID (mm) df (µm) Temp. Limits C Part No. Price 30-Meter to 30/340 7HG-G to 30/340 7HM-G to 30/340 7HK-G07-7 ZB-XLB Ideal for identifying unknown contaminants ID (mm) df (µm) Temp. Limits C Part No. Price 5-Meter to 340/360 7EG-G09-0-Meter to 340/360 7FD-G Meter to 340/360 7HG-G to 340/360 7HG-G to 340/360 7HM-G to 340/360 7HM-G to 30/340 7HK-G Meter to 340/360 7KG-G09- Test Mix Zebron ZB-XLB AG Contact Phenomenex or your local Phenomenex distributor for additional GC products and applications. 9 If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G004--B.

34 GC Accessories Inlet Base Seals Prevents analyte adsorption Improves detection sensitivity Improves method reproducibility Fits all Agilent 5890/6890 split/splitless injection ports Gold Inlet Base Seals Part No. Description Similar to Mfr. No.* Unit Price Standard, single groove for splitless applications, 0.8 mm dia. inlet hole AG0-758 Gold Inlet Base Seal, splitless (single groove), 0.8 mm /pk AG0-759 Gold Inlet Base Seal, splitless (single groove), 0.8 mm /pk High Split Flow, cross groove for split applications, 0.8 mm dia. inlet hole AG0-750 Gold Inlet Base Seal, split (double groove/cross), 0.8 mm /pk AG0-75 Gold Inlet Base Seal, split (double groove/cross), 0.8 mm /pk Replacement Inlet Seal Washers AG Inlet Seal Washers, for Agilent GC injection port /pk *Similar to but not always an exact equivalent to the original manufacturer s product. n e w Stainless Steel Inlet Base Seals Part No. Description Similar to Mfr. No.* Unit Price Standard, single groove for splitless applications, 0.8 mm dia. inlet hole AG Stainless Steel Inlet Base Seal, splitless (single groove), 0.8 mm /pk AG Stainless Steel Inlet Base Seal, splitless (single groove), 0.8 mm /pk High Split Flow, cross groove for split applications, 0.8 mm dia. inlet hole AG Stainless Steel Inlet Base Seal, split (double groove/cross), 0.8 mm /pk AG Stainless Steel Inlet Base Seal, split (double groove/cross), 0.8 mm 0/pk Replacement Inlet Seal Washers AG0-75 Inlet Seal Washers, Stainless Steel, for Agilent GC injection port /pk 30 GuideRight Injection Hole Septa The GuideRight through-hole guides the needle during injection. Septum performance and lifetime increase while downtime due to bent needles or dirty injection ports decreases. Choose from either high temperature PhenoGreen or PhenoRed, both rated to 400 C. Part No. Description Unit Price PhenoGreen 3 8 in. (9.5 mm) Diameter AG PhenoGreen 400 Injector Septa 50/pk PhenoGreen 7 6 in. ( mm) Diameter AG PhenoGreen 400 Injector Septa 50/pk PhenoRed 3 8 in. (9.5 mm) Diameter AG0-796 PhenoRed 400 Injector Septa 50/pk PhenoRed 7 6 in. ( mm) Diameter AG0-797 PhenoRed 400 Injector Septa 50/pk Long Graphite Ferrules High-purity graphite significantly reduces ferrule bleed Special construction minimizes flaking Stable to 450 C - excellent for high temperature use Not for use with GC/MS transfer lines Part No. Description Unit Price 0.4 mm Ferrule ID AG Graphite Ferrule 6 in. to 0.4 mm 0/pk AG Graphite Ferrule 6 in. to 0.4 mm 50/pk 0.5 mm Ferrule ID AG0-470 Graphite Ferrule 6 in. to 0.5 mm 0/pk AG0-470 Graphite Ferrule 6 in. to 0.5 mm 50/pk 0.8 mm Ferrule ID AG Graphite Ferrule 6 in. to 0.8 mm 0/pk AG Graphite Ferrule 6 in. to 0.8 mm 50/pk Contact Phenomenex or your local Phenomenex distributor for additional GC products and applications.