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Customer Success Story with York University

Close-up of MP-AES nebulizer system used for elemental analysis in an analytical chemistry laboratory in a university.

The Challenge

The Department of Chemistry at York University sought to modernize instrumentation used in its second-year analytical chemistry laboratory. An existing flame-based atomic absorption system no longer aligned with the department’s objectives of providing students with experience using contemporary analytical techniques, nor with its broader commitment to environmentally responsible scientific practices.

The department required a solution that would support foundational teaching goals while introducing students to modern approaches to elemental analysis.

A PerkinElmer atomic absorption spectrometer installed in an undergraduate laboratory.

The Bedrock Scientific Solution

Bedrock Scientific partnered with York University to procure and install an Agilent microwave plasma–atomic emission spectrometer (MP-AES) in the undergraduate teaching lab. The system replaces traditional flame-based analysis with a more environmentally conscious approach, supporting the university’s focus on sustainability in scientific training.

n Agilent Technologies microwave plasma atomic emission spectrometer installed in an undergraduate laboratory.

The MP-AES has been integrated into the second-year analytical chemistry curriculum, where students perform the quantitative analysis of lead (Pb) and copper (Cu) in brass samples. Through this application, students develop practical skills in calibration, measurement, and data interpretation using modern atomic spectroscopy techniques.

Calibration curves and quantitation results for the analysis of lead and copper in brass samples using MP-AES

As samples are introduced, the instrument’s torch generates a bright, stable plasma sustained by microwave energy and nitrogen gas. The plasma appears as a tightly confined, luminous column, typically pale blue to violet, flickering subtly as excited atoms emit their characteristic wavelengths. This visible emission provides a compelling, real-time connection between theory and measurement for students.

A close up of a glowing torch of a MP-AES system. The light is emitted during the analysis of samples.

The Impact

The introduction of the Agilent MP-AES supports York University’s goal of aligning laboratory instruction with current analytical practices while reinforcing environmentally responsible approaches to scientific work.

Students gain hands-on experience with instrumentation relevant to both academic and industrial settings, helping to build practical, industry-aligned skills that support their continued studies and future careers.

Bedrock Scientific is pleased to support York University in advancing STEM education through applied, real-world laboratory learning.

Bedrock Scientific made our purchase of an Atomic Emission Spectrometer go smoothly from start to finish, from getting the best possible price for a quality machine in the used market though delivery, installation and specc'ing. We saved a huge amount of time and no small amount of money either! Our students are now benefitting from having up-to-date equipment for learning and career preparation in instrumental analysis!
Dr. Derek Wilson
Professor