Accurate mass measurement of lube oil by GC/FI-TOFMS

Applications | | JEOLInstrumentation

GCxGC, GC/MSD, GC/TOF

Industries

Energy & Chemicals

Manufacturer

Agilent Technologies, JEOL

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Summary

Significance of the Topic

Precise mass measurement of lubricant oil components is essential for characterizing hydrocarbon distributions and detecting additives or contaminants. Field ionization techniques coupled with high-resolution time-of-flight mass spectrometry enable direct observation of molecular ions, enhancing confidence in elemental composition assignments even for samples that fragment extensively under conventional ionization.

Objectives and Study Overview

This study evaluates the use of gas chromatography combined with field ionization time-of-flight mass spectrometry (GC/FI-TOFMS) for a commercial lube oil sample. Key aims include demonstration of molecular ion generation by FI, assessment of internal calibration using a known hydrocarbon, and determination of elemental compositions for major oil constituents.

Methodology and Applied Instrumentation

The workflow integrates capillary GC separation and FI-TOF detection under the following conditions:

Gas Chromatograph: Agilent 6890N with DB-5 column (30 m × 0.32 mm I.D., 0.25 μm film)
Oven program: 50 °C hold, ramp at 15 °C/min to 320 °C (2 min)
Injection: 1.0 µL split 1:200 at 280 °C, helium carrier at 1 mL/min constant flow
Mass Spectrometer: JEOL JMS-T100GC “AccuTOF GC”
Ionization: Field ionization (cathode voltage –10 kV, emitter current 0 mA)
Spectrum acquisition interval: 0.4 s

Main Results and Discussion

The total ion current chromatogram (TICC) revealed distinct hydrocarbon and fatty acid ester regions. Field ionization produced predominantly intact molecular ions with minimal fragmentation. C13 hydrocarbon (C13H28, exact mass 184.2191) was selected as an internal mass calibrant. Using this single-point internal calibration, the observed accurate masses of four additional peaks were determined with deviations below ±2 mDa, confirming high mass accuracy:

Peak 1: C11H24 (calculated m/z 156.1878, observed 156.1868, –1.0 mDa)
Peak 2: C12H26 (170.2034 → 170.2030, –0.4 mDa)
Peak 3: C20H40O2 (312.3028 → 312.3046, +1.8 mDa)
Peak 4: C22H44O2 (340.3341 → 340.3356, +1.5 mDa)

The results underscore the capability of FI-TOFMS for reliable elemental composition determination across a range of hydrocarbon and oxygenated species. Single-point calibration using a co-eluting standard simplifies the workflow without compromising accuracy.

Benefits and Practical Applications

GC/FI-TOFMS offers several advantages for lubricant analysis:

Soft ionization retains molecular integrity, facilitating direct formula assignment
High resolving power and low systematic error yield mass accuracy within a few millidaltons
Single-point internal calibration streamlines quantitative and qualitative studies
Applicable to complex mixtures where conventional EI fails to produce intact molecular ions

These features support applications in quality control, formulation development, and contaminant screening in petrochemical and tribology research.

Future Trends and Opportunities

Advancements may include integration of alternative soft ionization methods, expanded use of high-resolution MS workflows for real-time monitoring, and coupling with chemometric tools for automated profiling. Development of standardized FI-TOFMS libraries for lubricant additives and degradation products could further enhance rapid identification capabilities.

Conclusion

The combination of GC and field ionization TOFMS provides a powerful platform for accurate mass measurement of lubricant oil constituents. The approach delivers reliable elemental compositions using minimal fragmentation and single-point calibration, offering significant advantages for analytical laboratories engaged in petrochemical analysis.

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