SepSolve Analytical unveils enhancements to BenchTOF2 for superior performance

SepSolve Analytical (Peterborough, UK) has unveiled significant upgrades to its highly regarded BenchTOF2 time-of-flight mass spectrometer. Renowned for its high mass accuracy, exceptional spectral quality, and trace-level sensitivity, the BenchTOF2 now delivers even greater performance, solidifying its position as the ideal solution for non-target screening and demanding analytical applications.

The updated BenchTOF2 features a redesigned ion source that enhances robustness and simplifies maintenance. These improvements reduce reactivity, prolong cleanliness, and minimise downtime, while the tool-free installation and removal makes the instrument easier than ever to maintain.

The BenchTOF2’s transfer line has also been redesigned for improved reliability and ease of use. The new straight-through design simplifies column fitting, eliminates cold spots and leaks, and can now remain in place during ion source maintenance, ensuring greater stability and performance.

Optimised for high-boiling compounds, the updated system continues to expand its versatility, especially for petrochemical and complex analyses when combined with SepSolve’s INSIGHT^© range of GCxGC modulators. Complementing these hardware advancements is the release of ChromSpace version 2.2 software, which delivers enhanced stability, performance refinements, and updates to quantitation workflows, enabling users to achieve accurate results with greater efficiency and ease.

“The BenchTOF2 has always set a high standard in time-of-flight mass spectrometry,” said Dr Laura McGregor, Product Marketing Manager at SepSolve. “These updates reflect our ongoing commitment to providing laboratories with advanced tools that combine precision, reliability, and usability, empowering users to confidently tackle complex analytical challenges.”

By enhancing its core strengths and introducing thoughtful improvements, the BenchTOF2 ensures laboratories can maintain peak productivity while achieving unparalleled analytical accuracy.

ENDS