John S. Canham scite author profile

A simplified, automated, colorimetric method is described for the determination of free fatty acids (FFA) in solution using solvent extraction flow injection analysis (SEFIA). A membrane separator utilizing a microporous Teflon membrane is used for a clean phase separation. A newly designed segmentor is used for segmenting the reagent and solvent streams. A linear relationship exists between normality and absorbance from 6×10−5 to greater than 3×10−2 N for oleic acid and from 4.4×10−5 to 6×10−3 N for stearic acid. The correlation between concentration and absorbance in this method is better than in previously advanced copper soap colorimetric methods. The sample throughput is 130 injections/hr.

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The Mars Science Laboratory Organic Check Material

Conrad

Eigenbrode

Heydt

et al. 2012

Space Sci Rev

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Mars Science Laboratory's Curiosity rover carries a set of five external verification standards in hermetically sealed containers that can be sampled as would be a Martian rock, by drilling and then portioning into the solid sample inlet of the Sample Analysis at Mars (SAM) suite. Each organic check material (OCM) canister contains a porous ceramic solid, which has been doped with a fluorinated hydrocarbon marker that can be detected by SAM. The purpose of the OCM is to serve as a verification tool for the organic cleanliness of those parts of the sample chain that cannot be cleaned other than by dilution, i.e., repeated sampling of Martian rock. SAM possesses internal calibrants for verification of both its performance and its internal cleanliness, and the OCM is not used for that purpose. Each OCM unit is designed for one use only, and the choice to do so will be made by the project science group (PSG).

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Mitigation of the Impact of Terrestrial Contamination on Organic Measurements from the Mars Science Laboratory

Kate

Canham²,

Conrad

et al. 2008

Astrobiology

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The objective of the 2009 Mars Science Laboratory (MSL), which is planned to follow the Mars Exploration Rovers and the Phoenix lander to the surface of Mars, is to explore and assess quantitatively a site on Mars as a potential habitat for present or past life. Specific goals include an assessment of the past or present biological potential of the target environment and a characterization of its geology and geochemistry. Included in the 10 investigations of the MSL rover is the Sample Analysis at Mars (SAM) instrument suite, which is designed to obtain trace organic measurements, measure water and other volatiles, and measure several light isotopes with experiment sequences designed for both atmospheric and solid-phase samples. SAM integrates a gas chromatograph, a mass spectrometer, and a tunable laser spectrometer supported by sample manipulation tools both within and external to the suite. The sub-part-per-billion sensitivity of the suite for trace species, particularly organic molecules, along with a mobile platform that will contain many kilograms of organic materials, presents a considerable challenge due to the potential for terrestrial contamination to mask the signal of martian organics. We describe the effort presently underway to understand and mitigate, wherever possible within the resource constraints of the mission, terrestrial contamination in MSL and SAM measurements.

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Planetary Protection Knowledge Gaps and Enabling Science for Human Mars Missions

Spry

Siegel²,

Kminek³

et al. 2021

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John S. Canham

Planning Considerations Related to the Organic Contamination of Martian Samples and Implications for the Mars 2020 Rover

Automated free fatty acid determination using flow injection analysis solvent extractions

The Mars Science Laboratory Organic Check Material

Mitigation of the Impact of Terrestrial Contamination on Organic Measurements from the Mars Science Laboratory

Planetary Protection Knowledge Gaps and Enabling Science for Human Mars Missions

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