B. Barnes scite author profile

Background: Detecting microbial life in extraterrestrial locations is a goal of space exploration because of ecological and health concerns about possible contamination of other planets with earthly organisms, and vice versa. Previously we suggested a method for life detection based on the fact that living entities require a continual input of energy accessed through coupled oxidations and reductions (an electron transport chain). We demonstrated using earthly soils that the identification of extracted components of electron transport chains is useful for remote detection of a chemical signature of life. The instrument package developed used supercritical carbon dioxide for soil extraction, followed by chromatography or electrophoresis to separate extracted compounds, with final detection by voltammetry and tandem mass-spectrometry.

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B. Barnes

In Search of the Molecules of Life

A versatile pulse-mode biomimic artificial neuron using a capacitor free integrate and - fire technique

Supercritical Fluid Extraction and High-Performance Liquid Chromatography-Diode Array-Electrochemical Detection of Signature Redox Compounds from Sand and Soil Samples

PWM characteristics of capacitor-free integrate-and-fire neuron

Measurement of microbial activity in soil by colorimetric observation of in situ dye reduction: an approach to detection of extraterrestrial life

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