A Catalyst for Data-Driven Solutions
PFAS Assessment and Mitigation
- Investigation and Remediation
- Data Science
- Analytical Chemistry
- Biological Chemistry
- Biological Engineering
- Cell and Molecular Biology
- Data Analytics
- Data Translation
- Data Visualization
- Decision Support
- Ecological Risk Assessment
- Environmental Toxicology
- Forensic Chemistry and Biology
- Materials Chemistry
- Modeling and Simulation
- Organic Chemistry
- Systems Biology
Method Development and Optimization?
If your questions can’t be answered by standard analytical methods, our team of experienced analytical chemists can help. Battelle can develop and evaluate rigorous methods for complex analytical needs and non-standard problems.
We go beyond standard methods to solve difficult analytical challenges, including:
Accurate analysis of novel or difficult matrices or analytes
New methods with lower detection limits for more accurate risk assessment and characterization
Detection of contaminant byproducts and metabolites
PFAS Annihilator™ Destruction Technology
Quantitative Realtime PCR, Applied Biosystems®
GMOs (Genetically Modified Organisms) have the potential to vastly improve our food supply with products that are more nutritious, productive, sustainable or transportable. But new GMOs are subject to intensive regulatory review before they can hit the grocery store aisles.
Amy DindalPFAS Program ManagerResponsible for coordinating and overseeing Battelle enterprise-capabilities in PFAS including laboratory analyses, site characterization, contaminant remediation, and health risk management/communication that delivers value-added, tailored environmental restoration solutions.
Jon ThornLaboratory DirectorJon is responsible for operations of sample preparation and analytical laboratories, including Battelle’s PFAS-accredited lab. He also focuses on research and development to ensure the sample preparation lab continues to produce high quality data using the most up-to-date techniques.