Volatile Organic Compounds Produced During Irradiation of Mail

Smith, Philip A.; Sheely, Michael V.; Hakspiel, Shelly J.; Miller, Stephen Matteo

doi:10.1080/15428110308984808

Cited by 8 publications

(2 citation statements)

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“…Widespread use of SPME in numerous fields has occurred since the method was first introduced in 1990, (11) including forensics, (12,13) biomedical applications, (14) environmental sampling, (15,16) historical document preservation, (17) sampling for worker health protection to determine unknown process reaction byproducts, (4) and for rapid sampling of chemical warfare agent compounds with relative safety. (18,19) …”

Section: High-performance Person-portable Gc-ms For Improved Exposurementioning

confidence: 99%

“…Incomplete or inaccurate ingredient lists (1,2) and the presence of unanticipated chemical reaction products (3,4) will potentially lead to inadequate exposure assessments unless work is performed to determine the actual chemicals present. A study completed within the past 10 years found several examples where disclosure of chemical constituents in three commercial products was legally required, but the respective material safety data sheet (MSDS) data did not list the correct hazardous ingredients.…”

Section: Introductionmentioning

confidence: 99%

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Unknown Exposures: Gaps in Basic Characterization Addressed with Person-Portable Gas Chromatography-Mass Spectrometry Instrumentation

Smith¹,

Roe

Sadowski³

et al. 2011

Journal of Occupational and Environmental Hygiene

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A newly developed person-portable gas chromatography-mass spectrometry (GC-MS) system was used to analyze several solvent standards, contact cement, paint thinner, and polychlorinated biphenyl samples. Passive solid phase microextraction sampling and fast chromatography with a resistively heated low thermal mass GC column were used. Results (combined sampling and analysis) were obtained in <2 min for solvent, contact cement, and paint thinner samples, and in <13 min for the polychlorinated biphenyl sample. Mass spectra produced by the small toroidal ion trap detector used were similar to those produced with heavily used transmission quadrupole mass spectrometers for polychlorinated biphenyl compounds, simple alkanes, and cycloalknes, while mass spectra for benzene and the ketone compounds analyzed showed evidence for ion/molecule reactions in the ion trap. For one of the contact cement samples analyzed, no evidence was found to indicate the presence of n-hexane, although the relevant material safety data sheet listed this ingredient. Specific chemical constituents corresponding to a potentially wide range of petroleum distillate compounds were identifiable from GC-MS analyses. The possibility for an improved basic characterization step in the exposure assessment process exists with the availability of fast, person-portable GC-MS, although work is needed to further refine this tool and understand the best ways it may be used.

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Section: High-performance Person-portable Gc-ms For Improved Exposurementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Unknown Exposures: Gaps in Basic Characterization Addressed with Person-Portable Gas Chromatography-Mass Spectrometry Instrumentation

Smith¹,

Roe

Sadowski³

et al. 2011

Journal of Occupational and Environmental Hygiene

Self Cite

View full text Add to dashboard Cite

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Portable Gas Chromatography

Smith

2015

Analytical Separation Science

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Portable gas chromatography ( GC ) instruments are those that are used outside the laboratory, and both transportable and person‐portable types exist within the larger class. A transportable instrument requires external power and a vehicle for movement, while a person‐portable instrument may be operated on battery power with a self‐supplied carrier gas . Additionally, an arbitrary weight limit of 50 pounds (23 kg) has been used in the past to define a person‐portable GC instrument that allows for movement by a single individual. Historically, the capabilities of transportable GC instruments have reflected those of contemporary laboratory gear, while power constraints imposed by battery operation have caused the performance of person‐portable GC instruments to suffer. However, recent advances in column heating technology have improved the capabilities of portable GC instruments in both categories, and analysis completed outside of the laboratory is increasingly relied on to answer questions related to industrial processes, material composition, military and homeland defense against terrorism, and workplace and environmental health and safety. The developments that led to the widespread adoption of open tubular fused silica columns in the 1980s, primarily for chromatographic performance, coincidentally made this important GC component strong and lightweight. Also, the low thermal mass of an open tubular GC column allows temperature program analysis using relatively little power if heating may be limited mostly to the column itself, and within the past 10 years the idea of resistive column heating to complete rapid temperature program analysis has led to the commercial availability of very small column assemblies based on this heating approach. Using such a column assembly , aggressive temperature ramp rates are possible even when an instrument is operated using battery power, and the resulting rapid analysis speeds improve the ability to quickly complete GC analyses in the field. With the advent of commercially available resistive column heating, temperature ramping is now routine for newer person‐portable instruments and the performance of transportable instruments can in many ways exceed that of traditional laboratory gear. In addition to the developments in portable GC that have resulted from the incorporation of open tubular columns in resistively heated modules, GC components based on microelectromechanical systems ( MEMS ), particularly the use of micromachining of silicon, has led to new types of components in the field of “micro GC ” (µ GC ). Historical context and some implications of the possibility to create low‐cost batch produced µ GC components are discussed for this developing field. Discussion is also provided regarding available solventless sample introduction methods to support analysis by portable GC , including sorbent sampling for thermal desorption, solid‐phase microextraction, and the use of needle trap sampling devices.

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The Use of Gamma Radiation for the Treatment of Cultural Heritage in the Argentine National Atomic Energy Commission: Past, Present, and Future

et al. 2017

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The use of gamma radiation for treating biodeteriorated cultural heritage on paper has been studied at the Comisión Nacional de Energía Atómica-CNEA (Argentina) since 2001. In order to preserve books, publications, and documents that have been attacked by insects or fungi, gamma radiation techniques have been used at CNEA. The activities include basic research as well as their applications in infected documents and papers currently used in libraries and archives. New papers were subjected to accelerated ageing in order to evaluate the effects of gamma radiation on their physical and mechanical properties. Current studies include resistance to radiation in two batches of highly cellulolytic fungi, associated with indoor environment. They are present in papers and adhesives used for conservation purposes at the Laboratory of Preventive Conservation and Restoration of Documents. A joint study has been started in CNEA with the National University of La Plata.

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Volatile Organic Compounds Produced During Irradiation of Mail

Cited by 8 publications

References 0 publications

Unknown Exposures: Gaps in Basic Characterization Addressed with Person-Portable Gas Chromatography-Mass Spectrometry Instrumentation

Unknown Exposures: Gaps in Basic Characterization Addressed with Person-Portable Gas Chromatography-Mass Spectrometry Instrumentation

Portable Gas Chromatography

The Use of Gamma Radiation for the Treatment of Cultural Heritage in the Argentine National Atomic Energy Commission: Past, Present, and Future

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