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BioChromato ionRocket Temperature Gradient System for DART-MS

The ionRocket visualizes (identifies) the hardly seen compounds in your samples. It generates the heat gradient from the ambient temperature up to 600ºC at the rate of 100ºC per minute. It allows various compounds in your samples to be sublimated or vaporized.

The data obtained from the ionRocket application gives another axis of temperature besides the data obtained from DART-MS (Direct Analysis in Real Time-Mass Spectrometry). Since the temperature shifts by time in minutes, the given profile shows similar ones to chromatograms. The given data is three-dimensional, consisting of mass, temperature (=time), and intensity.

Description
  • Thermal Controller Maximum temperature: 600?
  • Size: W 390 x D 180 x H 163 mm
  • Weight: 3.4 kg
  • Control Box:
  • Size: W 321 x D 220 x H 147 mm
  • Weight: 4.1 kg
  • Heating Tube Maximum temperature: 200?
  • Control Box:
  • Size: W 320 x D 200 x H 123 mm
  • Weight: 2.9 kg
  • Power Source AC100-240±10V (50/60 Hz)
  • Heating Control Temperature Room temperature -600?
  • Use Temperature Environment 10? ~ 40? (no condensation)
  • Electricity Consumption Operation State: AC100V 320W AC240V 336W
  • Stand-by State: AC100V 32W AC240V 101W

 

Publications

 

2019

Ball, P. (2019). Development of a DART-Mass Spectral Database for 3D-Printed Firearm Polymers, and Airborne Mercury at Three Lakes in North Mississippi (Doctoral dissertation, The University of Mississippi).

Bridge, C. & Marić, M. (2019). Temperature-Dependent DART-MS Analysis of Sexual Lubricants to Increase Accurate AssociationsJ. Am. Soc. Mass Spectrom.

Barnett, I., Bailey, F. C., & Zhang, M. (2019). Detection and Classification of Ignitable Liquid Residues in the Presence of Matrix Interferences by Using Direct Analysis in Real Time Mass SpectrometryJournal of Forensic Sciences.

2018

Cody, R. B., & Fouquet, T. (2018). “Reverse Kendrick Mass Defect Analysis”: Rotating Mass Defect Graphs to Determine Oligomer Compositions for Homopolymers. Analytical chemistry90(21), 12854-12860.

Price, E. R., McClure, P. J., Jacobs, R. L., & Espinoza, E. O. Identification of rhinoceros keratin using direct analysis in real time (DART) time‐of‐flight mass spectrometry (TOFMS) and multivariate statistical analysis. Rapid Communications in Mass Spectrometry.

Abe, H., Takei, C., Sakakura, M., Yajima, D., & Iwase, H. (2018). Comprehensive Drug Screening by Thermal Desorption and Pyrolysis Combined with Direct Analysis in Real Time-Mass Spectrometry (TDP/DART-MS). Analysis of Drugs of Abuse (pp. 115-124). Humana Press, New York, NY.

M Maric, J Marano, RB Cody, C Bridge (2018). DART-MS: A New Analytical Technique for Forensic Paint AnalysisAnalytical chemistry