Abstract
Inelastic Electron Tunnelling Spectroscopy (IETS) has been used to identify the reaction products present on an alumina surface when it is exposed to likely components of the earth's prebiotic atmosphere. The alumina barrier of Al-AlOx-Pb tunnelling junctions have been exposed to water; aqueous ammonia; wet carbon monoxide gas and to aqueous formaldehyde vapour under normal atmospheric conditions at room temperature. The water spectrum shows strong coincidence with that of a genuine sample of formic acid. It is proposed that atmospheric CO2 is involved in this surface catalyzed reaction. The aqueous ammonia spectrum is assigned as an amino acid species produced from ammonia, water and atmospheric carbon dioxide. This spectrum compares very closely with the tunnelling spectrum of a genuine sample of glycine. The wet carbon monoxide spectrum and the aqueous formaldehyde spectrum have been produced by an infusion doping process. These spectra of CO and aqueous formaldehyde are assigned as a sugar like polymer or a sugar formed on the alumina surface. A tunnelling spectrum of D(−) fructose has been produced to aid this assignment. The role of an inorganic template such as alumina in the original prebiotic synthesis of amino acids and sugars is considered.
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