Session Info

Rapid Droplet Sampling Interface (RDSI)

Problem

Chemical characterization of liquid samples is a common need across a variety of research industries, including the pharmaceutical, biochemical, clinical, and environmental sectors. However, with current technologies, liquid samples often require vigorous sample processing procedures, which extends the total analysis time and costs. Methods to improve cost efficiency and sensitivity while retaining high sampling throughput are highly desired in the biochemical, pharmaceutical, and medical research communities.

Solution

The Rapid Droplet Sampling Interface (RDSI) technology is a versatile, ultrahigh-throughput, and ultralow-volume chemical analysis method. This novel methodology enables chemical analysis of samples at speeds up to 5 samples/s through droplet ejection and capture in a continuously flowing open solvent stream coupled with mass spectrometry analysis. By using droplets of the sample, measuring chemical composition requires as little as a few nanoliters. The continuously flowing solvent stream ensures the minimal sample-to-sample carryover and stable ion generation necessary to achieve quantitative analysis at high frequency.

Impact

The RDSI technology addresses the sensitivity, speed, and material cost shortcomings of competitive rapid analysis technologies by providing ultrahigh-throughput chemical analysis while drastically reducing associated costs. The RDSI will allow quicker turnaround in both pharmaceutical and clinical laboratories that in turn can yield faster drug discovery and disease diagnosis. The RDSI can be coupled with any droplet dispensing system, enabling varied sampling capabilities and application areas. These collective features of the RDSI make it primed to affect society by transforming high-throughput sampling and analysis in multiple areas of the analytical branch of the health sector.

Intellectual Property

โ€œRapid Droplet Introduction Interface (RDII) for Mass Spectrometry,โ€ Invention Ref. No. 202004712; US Patent Applic. No. 17/480,094, filed September 20, 2021, which issued on May 16, 2023 as US Patent 11,651,945

Contact

For more information, please contact Jennifer Caldwell (865-574-4180, caldwelljt@ornl.gov).

 

Speakers

Vilmos Kertesz

Vilmos Kertesz


More