Technical Info

Conferences & Exhibitions

Pyrolysis 2012

May 21 – 25, 2012, Linz, Austria

  1. Development of a new versatile high temperature micro-furnace pyrolyzer for pyrolysis-GC incorporating a cylindrical tube heater for the advanced characterization of polymeric materials
  2. Pyrolysis-GC/MS: Optimize reproducibility and improve polymer identification using evolved gas analysis (EGA)-MS and Double-Shot analysis
  3. Using Py-GC/MS to determine residual silicone defoamers on pulp fibres and in mill deposits
  4. Reactive pyrolysis gas chromatography (RxPy-GC) applied for the quantitative analysis of omega-3 fatty acids (DHA, EPA) in edible marine oils
  5. F-Search: An integrated MS search engine with multiple MS libraries improves laboratory productivity
  6. Rapid evaluation of photo, thermal and oxidative degradation of high impact polystyrene by micro-Ultra Violet Irradiator-pyrolysis GC/MS system
  7. Rapid processing followed by material characterization by on-line Tandem Pyrolyzer – application in hydrogenation, oxygenation of pyrolyzates of polymers and transformation of ethanol to propyrene
  8. Newly developed micro reaction sampler applied for on-line GC analysis of intractable condensation polymers
  9. Simple quantitative analysis of stearic acid in styrene butadiene rubber utilizing reactive pyrolysis GC/MS method with tetramethylammonium hydroxide
  10. How to guarantee the highly excellent data quality of a vertical micro-furnace pyrolyzer
  11. Determination of alkylphenol components in Ginkgo biloba sarcotesta by thermochemolysis-gas chromatography/mass spectrometry in the presence of trimethylsulfonium hydroxide
  12. Identification of oil from an ancient object by thermally assisted hydrolysis and methylation-gas chromatography/mass spectrometry

PittCon 2012

Mar. 11 – 15, 2012, Orlando, USA

  1. A Simple, One-step, Quantitative Analytical Method for the Analysis of Omega 3 and Other Important Fatty Acids in Natural Products
  2. Quantitative Analysis of Stearic Acid in Rubber Using Reactive Pyrolysis GC/MS
  3. Fast, Easy and “Green” Thermal Desorption-GC/MS Method for the Analysis of Phthalate Esters in PVC: Effect of Calibration Technique on Accuracy and Precision
  4. Quantitative analysis of stearic acid in rubber using reaction pyrolysis GC/MS
  5. Development of a New GC-MS Library for the Identification of Condensation Polymers
  6. Rapid Evaluation of Photo, Thermal, and Oxidative Degradation of EPDM Rubber by Online Ultraviolet Irradiation Py-GC/MS

Japanese Association of Forensic Science and Technology

Nov. 17-18, 2011, Tokyo, Japan

  1. Differentiating polyamide resin by EGA-MS

16th Symposium on Polymer Analysis and Characterization

Oct. 26-27, 2011, Tokyo, Japan

  1. Library search for condensation polymers using a reactive pyrolysis GC/MS library
  2. Rapid evaluation of photo, thermal, and oxidative degradation of EPDM rubber by on-line UV irradiation Py-GC/MS technique
  3. Development of organic polymer monolith having a zwitterion functionality and study of fundamental characteristics as an extraction element for use with multi-functional pyrolyzer
  4. Quantitative analysis of phthalates in polyvinylchloride under influence of strong matrix effects using thermal desorption GC/MS
  5. Quantitative analysis of stearic acid in rubber using reactive pyrolysis GC/MS
  6. Inhibition of isomerization reactions of unsaturated fatty acids in analysis using reactive pyrolysis GC technique

Conference of the Society for Chromatographic Science

Oct. 20-22, 2011, Sendai, Japan

  1. Micro reaction sampler userful for on-line GC analysis of intractable polymer samples
  2. Development of a new solid phase extraction element based on an argaminc polymeric monolith
  3. Development of a new vertical type of micro-furname pyrolyzer for pyrolysis-GC incorporationg a tube type of ceramic heater with highter temperature applicability
  4. Quantitative analysis of stearic acid in rubber using reaction pyrolysis GC/MS

Gulf Coast Conference

Oct. 11-12, 2011, Galvestone, Texas, USA

  1. The characterization of polymeric materials using MS pattern recognision software and EGA, polymer and pyrolyzates libraries
  2. Thermal Desorption – A “Green” alternative to solvent vased extraction regimes
  3. Frontier Laboratories’ pyrolysis workshop & user’s meeting

Japan Society for Analytical Chemistry 60th annual meeting

Sep. 14-16, 2011, Nagoya, Japan

  1. Study of fundamental characteristics of organic polymer monolith having zwitterion functionalities.
  2. Evaluation of Photo, thermal, and oxidative degradation of EPDM rubber by online ultraviolet irradiation Py-GC/MS technique.
  3. Study of isomerization reactions of various reagents in quantitative analysis of unsaturated fatty acids by reactive pyrolysis technique.
  4. Development of a reactive pyrolysis GC/MS library for searching condensation polymers
  5. Quantitative analysis of stearic acid in rubber using reactive pyrolysis GC/MS

Material Life Society, Japan 22th annual meeting

Jul. 7 – 8, 2011, Tokyo, Japan

  1. Rapid evaluation of photo, thermal, and oxidative degradation of EPDM rubber by on-line UV irradiation Py-GC/MS technique

ICAS 2011

May 22 – 26, 2011, Kyoto, Japan

  1. Development of a New Solid Phase Extraction Element Based on an Organic Polymeric Monolith
  2. A Simple Analytical Method for the Deformulation of Rubber used in various types of Vehicle Tires
  3. Effect of Co-existing Plasticizers for Quantitative Analysis of Regulated Phthalates in Poly(vinyl chloride) by Thermal Desorption GC/MS
  4. GC/MS Analysis of the Volatiles Formed during UV Irradiation and GC/MS Characterization of the Residual Polymer after UV Irradiation:Polycarbonate, High Impact Polystyrene and Ethylene Vinyl Acetate
  5. Development of a New Vertical Type of Micro-furnace Pyrolyzer for Pyrolysis-GC Incorporating a Tube Type of Ceramic Heater with Higher Temperature Applicability
  6. Micro Reaction Sampler Useful for On-Line GC Analysis of Intractable Polymer Samples

PittCon 2011

Mar. 13 – 18, 2011, Atlanta, USA

  1. Development of a Novel High Performance Micro-furnace Pyrolyzer for Pyrolysis-GC Incorporating a Ceramic Tube Heater for Advanced Characterization of Polymeric Materials
  2. A Simple, One-step Analytical Method for the Analysis of Fatty Acids in Natural Products
  3. Using Specialized MS Additive Libraries to Determine the Composition of Various Tire (Rubber) Formulations
  4. The Direct Analysis of Residual Bisphenol A, Phthalates and Brominated Fire Retardants in Consumer Products Using Thermal Desorption-GC/MS

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