Traceable Characterization of a Novel Ultra Fine Aerosol Source for Improved Instrument Calibration

In our pursuit of advancing scientific instrumentation, Catalytic Instruments is proud to lead a collaborative effort aimed at the traceable characterization of a novel ultra-fine aerosol source. This project represents a significant step forward in the field of aerosol science and calibration methodologies, with the primary objective of enhancing instrument accuracy and reliability.

At the core of this endeavour lies the development and characterization of an innovative ultra-fine aerosol source, meticulously designed to meet the demanding requirements of modern instrumentation calibration. Led by Catalytic Instruments, in partnership with the National Physical Laboratory (NPL) and the National Centre for Atmospheric Science (NCAS) at the University of Manchester, this project leverages a wealth of expertise and resources to drive progress.

The characterization process involves rigorous testing and validation procedures to ensure the traceability and accuracy of the aerosol source across a wide range of particle sizes, from ultra-fine to submicron dimensions. Through meticulous experimentation and analysis, we aim to establish a robust framework for instrument calibration, enabling researchers to achieve unprecedented levels of precision in their measurements. Central to our approach is the collaboration between industry-leading experts and research institutions, fostering a synergistic exchange of knowledge and innovation.

Harnessing the collective expertise of Catalytic Instruments, NPL, and NCAS/University of Manchester, we are poised to overcome technical challenges and push the boundaries of aerosol instrumentation calibration. This project has broader implications beyond scientific research, with applications in environmental monitoring and healthcare. By offering reliable calibration standards, we empower researchers and industries to drive advancements. Catalytic Instruments is dedicated to elevating calibration standards through the traceable characterization of this novel ultra-fine aerosol source, ensuring precision and accuracy in scientific measurement.

Published: 22.02.2024