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3D printed metal columns for capillary liquid chromatography


Sandron, S and Heery, B and Gupta, V and Collins, DA and Nesterenko, EP and Nesterenko, PN and Talebi, M and Beirne, S and Thompson, F and Wallace, GG and Brabazon, D and Regan, F and Paull, B, 3D printed metal columns for capillary liquid chromatography, Analyst, 139, (24) pp. 6343-6347. ISSN 0003-2654 (2014) [Refereed Article]

Copyright Statement

Copyright 2014 The Royal Society of Chemistry

DOI: doi:10.1039/c4an01476f


Coiled planar capillary chromatography columns (0.9 mm I.D. × 60 cm L) were 3D printed in stainless steel (316L), and titanium (Ti–6Al–4V) alloys (external dimensions of ~5 × 30 × 58 mm), and either slurry packed with various sized reversed-phase octadecylsilica particles, or filled with an in situ prepared methacrylate based monolith. Coiled printed columns were coupled directly with 30 × 30 mm Peltier thermoelectric direct contact heater/cooler modules. Preliminary results show the potential of using such 3D printed columns in future portable chromatographic devices.

Item Details

Item Type:Refereed Article
Keywords:chromatography, 3D printed columns, porous monoliths
Research Division:Chemical Sciences
Research Group:Analytical chemistry
Research Field:Separation science
Objective Division:Expanding Knowledge
Objective Group:Expanding knowledge
Objective Field:Expanding knowledge in the chemical sciences
UTAS Author:Sandron, S (Dr Sara Sandron)
UTAS Author:Gupta, V (Dr Vipul Gupta)
UTAS Author:Nesterenko, PN (Professor Pavel Nesterenko)
UTAS Author:Talebi, M (Dr Mohammad Talebi)
UTAS Author:Paull, B (Professor Brett Paull)
ID Code:98626
Year Published:2014
Funding Support:Australian Research Council (DP130101518)
Web of Science® Times Cited:72
Deposited By:Austn Centre for Research in Separation Science
Deposited On:2015-02-21
Last Modified:2017-10-28

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