An RF-powered micro-extractor (μEX) for the detection of astrobiological target molecules on Mars

Details An RF-powered micro-extractor (μEX) for the detection of astrobiological target molecules on Mars An RF-powered micro-extractor (μEX) for the detection of astrobiological target molecules on Mars

Dec 2011

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2011agufm.p43b1673s&link_type=abstract

American Geophysical Union, Fall Meeting 2011, abstract #P43B-1673

Biology

[5200] Planetary Sciences: Astrobiology

Scientific paper

Major goals of space exploration are to look for extant or extinct life (i.e. chemical biomarker molecules) and to determine the factors that make an environment habitable; an extension of this goal is to better understand prebiotic chemistry and the features that allow life to occur. In situ detection remains the most widely used method in missions that address these questions. Missions to astrobiological or geochemical planetary targets will require an efficient and non-altering extraction technique for efficient detection and characterization of biomarkers. Two new instruments are described that have been developed for use in the exploration of Mars - a target that attracts considerable attention from the astrobiology community; however it will be applicable to any mission requiring in situ analysis of planetary regolith and ice. The first of these instruments is a micro-extractor (μEXc) that exploits the unique property of water to modify its dielectric constant when affected by radio-frequency (RF) radiation; the second is a miniature version of the Sub-Critical Water Extractor (μSCWE). These instruments will be tested first on stock solutions of potential biomarkers to monitor any chemical changes and demonstrate some bond breaking capabilities, then on various planetary-analog samples for extraction. The best protocols for extraction of various bio-markers will be determined while maximizing efficiencies and minimizing the degradation of the targets and appropriate detection methods for each will be examined.

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