Quantitation of Four Regulated Phthalates in Plastic Consumer Products by Gas Chromatography Time-of-Flight Mass Spectrometry LEC Corporation; Saint Joseph, Michigan USA Key Words: Phthalates, GC/MS, GC-MS, Polymer Additives 1. Introduction Phthalates are a class of chemical compounds commonly used to soften and add pliability to plastic materials. ver the past decade, phthalates have come under increased scrutiny as concerns about their potentially harmful effects on human health have arisen. In 215 the European Union announced a ban on four specific phthalates commonly used in consumer products such as toys, coated fabrics, building materials, and office supplies. The ban included the following phthalates: diisobutyl phthalate, dibutyl phthalate, benzylbutyl phthalate, and bis(2-ethylhexyl) phthalate. This application note demonstrates the use of LEC's Pegasus BT GC-TFMS system for quantitation of these phthalates in a range of commercial products including two children's toys, an ink pen barrel, and cross-linked high-density polyethylene (CL-HDPE) pipe used in residential plumbing applications. 6.e8 7.2e5 6.e5 4.8e5 3.6e5 2.4e5 1.2e5 4 6 8 1 12 14 XIC(149.5±.5) Figure 1. Total Ion Chromatogram () and Extracted Ion Chromatogram (XIC m/z 149.5 ) Showing Detection of 3 out of 4 Regulated Phthalates in Cross-linked High-Density Polyethylene water pipe.
Delivering the Right Results 2. Experimental Four different plastic products were tested for the regulated phthalates: two children's toys, an ink pen barrel, and pipe used in residential plumbing. The goal was to detect the phthalates present on the surface of these materials; therefore exhaustive extraction techniques requiring sample grinding prior to extraction were not employed. For each sample, a 1 to 2 gram portion was placed in a 15 ml scintillation vial and the weight recorded. A 1 ml aliquot of chloroform was added, and the vial was placed in an ultrasonic bath for 2 minutes. After sonication, a 1mL portion of each extract was transferred to GC autosampler vials for analysis. Calibration standards for each of the phthalates were prepared in chloroform at a concentration range from 2 to 1, pg/µl. Plastic extracts and standards were analyzed using the instrument conditions shown below in Table I. External standard calibration curves for each of the phthalates were generated within the ChromaTF brand software, and were used to quantitate the levels of each regulated phthalate in the extracts. Table I. GC-TFMS (Pegasus BT) Conditions Gas Chromatograph Agilent 789 with L-PAL3 Autosampler Injection 1µL, split 1:1 @ 3 C Carrier Gas He @ 1.4 ml/min, Constant Flow Column Rxi-5ms, 3 m x.25 mm i.d. x.25 µm coating (Restek, Bellefonte, PA, USA) ven Program 5 C (1 min), to 33 C @ 3 C/min (2 min) Transfer Line 3 C Mass Spectrometer LEC Pegasus BT Ion Source Temperature 25 C Mass Range 4-7 m/z Acquisition Rate 1 spectra/s 3. Results and Discussion Table II shows the quantitative results obtained from the surface extraction of the four plastic products. The values are expressed in ng/g. Table II. Quantitative Results in nanograms/gram for Regulated Phthalates in Four Plastic Products Sample ID Benzyl butyl phthalate CL HDPE Pipe 491 817 n.d. 111 Ink Pen Barrel 2741 577 973 11445 Children's Toy #1 3728 5457 44 6894 Children's Toy #2 1858 1934 619 9561 Results shown in ng/g The GC-MS method used for this analysis demonstrated excellent linearity across the entire calibration range for all four of the phthalates measured. Table III shows the phthalates and their corresponding linearity values. Figure 2 shows a representative calibration plot and spectra for. Table III. Phthalates and their corresponding linearity values Phthalate R 2 Value.99999.99995 Benzyl butyl phthalate 1.99999
1 149.5 16 14 12 9 8 7 6 5 4 3 2 1 Library Hit - Similarity: 97 - Library: W11rep -, Abundance 149 1 9 8 7 6 5 Area 1 8 6 4 3 2 1 M/Z 5 1 15 2 25 3 4 2 2 4 6 8 1 12 14 Concentration y = +167457x - 56378.6 r² =.99999 Figure 2. GC-MS Calibration Curve and Mass Spectra (Deconvoluted and NIST Library match) for Bis(2-ethylhexyl) Phthalate. A representative GC-MS total ion chromatogram () and extracted ion chromatogram (XIC) of m/z 149.5 for the regulated phthalates in Children's Toy #1 are shown in Figure 3. 8.4e8 6.e8 Children s Toy #1 Figure 3. GC-MS Chromatograms for Toy #1 Extract. 5 7.5 1 12.5 15 17.5 2 22.5 Since the Pegasus BT offers maximum sensitivity and reproducibility with full mass range data acquisition, the same analyses used for the targeted phthalate quantitation can also be interrogated for other untargeted compounds of interest. A representative example is shown in Figure 4 where several additional polymer additive-type compounds were identified. 2.4e6 2.1e6 1.8e6 1.5e6 1.2e6.9e6.6e6.3e6 7.5 8 8.5 9 9.5 1 1.5 XIC(149.5±.5) Benzyl butyl phthalate
H P Delivering the Right Results 6.e8 H P 5 7.5 1 12.5 15 17.5 2 22.5 Figure 4. Example showing the automated identification of several non-targeted compounds within the CL HDPE Extract. Another important attribute of the system is NonTarget Deconvolution (NTD ). Non-Target analysis is a rapidly expanding area of importance in analytical sciences. The Pegasus BT was built from the ground up to support these types of investigations. NTD is an automated function within the ChromaTF brand software and very effectively identifies known unknowns (known to be in the NIST library but not known to be in the sample a priori). The Pegasus BT, being a time-of-flight mass spectrometer, provides data perfectly suited for mass spectral deconvolution algorithms (note scanning instruments are challenged due to spectral skewing). The example shown in Figure 5 demonstrates the ability of ChromaTF's NTD to effectively identify two analytes that were not separated chromatographically. This was done in a fully automated fashion and resulted in excellent spectral similarity scores against the NIST 217 database. Bis(2-ethylhexyl)Phthalate and 2,4-bis(1-methyl-1-phenylethyl)-Phenol were identified with similarity scores of 91/1 and 863/1, respectively. Peak True - sample "Pen Chloro Extract",, at 9.85645 min, Area (Abundance) 149.6 1 9 8 7 6 5 4 3 2 1 149 1 9 8 7 6 5 4 3 2 3.e8 Library Hit - Similarity: 91 - Library: replib -, Abundance 1.8e8 1 M/Z 5 1 15 2 25 3 Phenol, 2,4-bis(1-methyl-1-phenylethyl)- Peak True - sample "Pen Chloro Extract", Phenol, 2,4-bis(1-methyl-1-phenylethyl)-, at 9.86718 min, Area (Abundance) 315.21 1 9 8 7 6 5 4 3 2 1 Library Hit - Similarity: 863 - Library: mainlib - Phenol, 2,4-bis(1-methyl-1-phenylethyl)-, Abundance 315 1 9 8 7 6 5 4 3 2 1 55 M/Z 5 1 15 2 25 3 35.6e8 9.8 9.82 9.84 9.86 9.88 9.9 9.92 9.94 XIC(149.5±.5)*Constant(15.) XIC(315.21±.5)*Constant(15.) Figure 5. Example demonstrating effective deconvolution of Bis(2-ethylhexyl)Phthalate and 2,4-bis(1-methyl-1-phenylethyl)-Phenol.
4. Conclusion This application note effectively demonstrates the ability of the Pegasus BT GC-TFMS system to quantitate four regulated phthalates in plastic consumer products. The Time-of-Flight MS system demonstrated excellent sensitivity and linearity for this application. The ability to quantitate targeted analytes while still maintaining the ability to identify other relevant compounds within the same analytical data file shows the Pegasus BT GC-TFMS to be a powerful tool for not only routine screening of regulated components, but also additional characterization of consumer product formulations. LEC, Pegasus, ChromaTF, and StayClean are trademarks of LEC Corporation. LEC Corporation 3 Lakeview Avenue St. Joseph, MI 4985 Phone: 8-292-6141 269-985-5496 info@leco.com www.leco.com IS-91:28 HQ-Q-994 LEC is a registered trademark of LEC Corporation. Form No. 23-821-553 3/18-REV 218 LEC Corporation