Eugene Oga, a PhD student in Analytical Chemistry at the University of North Dakota, joins David Oliva to discuss his innovative research on silicone sealant degradation using evolved gas analysis and thermal desorption-pyrolysis gas chromatography. With his background in materials chemistry and current focus on analytical techniques, Eugene shares insights into how these advanced methods can characterize material breakdown over time, with significant implications for the construction industry and beyond.Eugene's Background and Research FocusEugene Oga is pursuing his PhD in Analytical Chemistry at the University of North Dakota, following his Bachelor's and Master's degrees from the University of Buea in Cameroon. His academic journey began with a focus on materials chemistry before transitioning to analytical chemistry, recognizing that material properties and performance depend heavily on proper characterization.His current research employs advanced analytical techniques like evolved gas analysis and pyrolysis gas chromatography to understand how materials break down over time and identify the specific fragments produced during degradation. This work aims to provide recommendations to manufacturers about potential improvements to their processes.Understanding Structural Sealant Glazing and Its ImportanceStructural Sealant Glazing (SSG) plays a critical role in modern construction, particularly in buildings that extensively use glass and metal. Eugene explains that sealants are thick liquids used to bind different construction materials together.These sealants serve multiple important functions, including preventing air infiltration, moisture penetration, and enhancing building stability. While studies have estimated how long sealants and buildings should last, they often don't explain the actual breakdown mechanisms. Eugene's research aims to fill this gap by identifying which components are lost over time and how this degradation occurs, ultimately enabling better prediction of failure and development of solutions.Different Failure Modes and Analytical ApproachesEugene identifies several categories of sealant failure that require different analytical approaches:1. Adhesive/cohesive failures: These occur when materials don't properly bind together, often due to surface preparation issues that can be addressed through proper cleaning.2. Chemical degradation: This includes processes like UV exposure, hydrolysis, and oxidation.3. Environmental factors: Temperature fluctuations, moisture, and pollutants can contribute to degradation.4. Physical degradation: Manifesting as cracking, fatigue, and creep.While mechanical analysis can identify physical changes like cracking and strength loss, it doesn't reveal which chemical components are being lost. For all these failure modes, gas chromatography and mass spectrometry prove essential.In all of these different failure modes and causes, gas chromatography and mass spectrometry would be very important to identify the volatile degradation products and the changes that are accompanying the backbone.Innovative Methodological ApproachEugene's research employs a two-step analytical approach that modifies standard GC-MS protocols to accommodate siloxane chemistry:1. Evolved Gas Analysis (EGA-MS): This serves as a rapid screening technique to identify temperature ranges where components evolve.2. Thermal Desorption-Pyrolysis GC-MS: This follows as a verification tool, focusing on the specific temperature zones identified by EGA to perform detailed analysis of components evolving at different temperatures.This sequential approach allows for more targeted analysis and better characterization of degradation products. The method is particularly valuable because it eliminates extensive sample preparation—samples can be analyzed as received, saving significant time and reducing potential preparation errors.

In this enlightening episode of Concentrating on Chromatography, host David Oliva engages in a comprehensive discussion with Lisa Jones, Director of Higher Education Relations at I.W. Tremont Co. and active NAOSMM volunteer, alongside Jim Averso, Co-President at I.W. Tremont and producer of the LabExact brand of laboratory consumables.

The conversation explores critical aspects of laboratory supply management, including best practices for procurement in academic settings, inventory challenges, and the advantages of American-made products. Lisa shares valuable insights from her 27 years of experience at the University of Alabama, highlighting how institutional policies affect purchasing decisions and the complexities of managing laboratory stockrooms. Jim discusses how I.W. Tremont develops products based on real laboratory workflows and responds to researcher feedback.

Key topics include:

• The role of NAOSMM (National Association of Scientific Materials Managers) in connecting laboratory managers with quality suppliers

• Challenges of cylinder-based nitrogen supply versus on-demand nitrogen generation

• The importance of vendor selection criteria including quality certification, inventory availability, and customization capabilities

• How academic procurement processes vary between institutions and departments

• The value of American manufacturing and family-owned businesses in the scientific supply chain

Whether you're managing university laboratory resources, working in a research facility, or supplying the scientific community, this episode offers practical perspectives on streamlining your supply chain while maintaining research quality and addressing the unique challenges of laboratory operations.

#LabSupplies #AcademicResearch #LabManagement #NAOSMM #ScientificProcurement #ChemistryLab #LabExact

In this episode of Concentrating on Chromatography, host David Oliva interviews Jim Averso, Co-President of I.W. Tremont and manufacturer of the LabExact brand, celebrating their 45th year in business. Jim shares expert insights on the critical role of filtration in chromatography sample preparation.Discover:- Why proper filtration is essential for protecting your expensive HPLC columns- How to select the right membrane type (Nylon, PTFE, PVDF, or PES) based on your sample- Common mistakes researchers make with syringe filters and how to avoid them- The innovative TruPor membrane technology that increases loading capacity while improving flow rates- Tips for preventing membrane intrusion and back pressure issues- The new HandyPrep device that simplifies pre-filtration steps- Advanced techniques like filter stacking for improved sample preparationWhether you're working with HPLC, UHPLC, GC, or other chromatography methods, this conversation provides valuable insights to optimize your workflow and improve analytical results.Jim also discusses the Laboratory Products Association's student engagement committee, which is building bridges between academia and commercial science careers.#Chromatography #LabTechniques #SamplePreparation #HPLC #Filtration #LabExact #ScienceEducation