Add to ORKGRecent observations of the Martian surface by the Phoenix lander and the Sample Analysis at Mars indicate the presence of perchlorate (ClO4). The abundance and isotopic composition of these perchlorates suggest that the mechanisms responsible for their formation in the Martian environment may be unique in our solar system. With this in mind, we propose a potential mechanism for the production of Martian perchlorate: the radiolysis of the Martian surface by galactic cosmic rays, followed by the sublimation of chlorine oxides into the atmosphere and their subsequent synthesis to form perchloric acid (HClO4) in the atmosphere, and the surface deposition and subsequent mineralization of HClO4 in the regolith to form surface perchlorates. To eva...
International audienceThe high perchlorate (ClO 4 −) to chloride (Cl −) ratios observed at the Phoen...
We show that highly oxidizing valence band holes, produced by ultraviolet (UV) illumination of natur...
Perchlorates have been found widespread on the surface of Mars, their origin and degradation pathway...
Recent observations of the Martian surface by the Phoenix lander and the Sample Analysis at Mars ind...
Isotopic studies indicate that natural perchlorate is produced on Earth in arid environments by the ...
The first detection of perchlorate salts in the Martian regolith was made by NASA’s Phoenix Mars lan...
Methane, perchlorates, chlorates, and methyl chlorides have all been detected on Mars. The origin of...
Perchlorate was first detected on Mars by the Wet Chemistry Laboratory (WCL) instrument on the Phoen...
The first detection of perchlorate salts in the Martian regolith was made by NASA’s Phoenix Mars lan...
We report experimental evidences to support a new formation mechanism, multiphase redox plasma chemi...
Carbon dioxide (CO<sub>2</sub>) rich chlorine-bearing ices were exposed to energetic electrons in la...
Perchlorate (ClO₄⁻) was discovered in Martian soil by the Phoenix lander, with important implication...
In extremely arid regions on Earth, such as the Atacama Desert, nitrate, sulfate and perchlorate sal...
The research presented here addresses the mechanisms for photochemical formation of perchlorate (ClO...
The results from the Viking mission in the mid 1970s provided evidence that the martian surface cont...
International audienceThe high perchlorate (ClO 4 −) to chloride (Cl −) ratios observed at the Phoen...
We show that highly oxidizing valence band holes, produced by ultraviolet (UV) illumination of natur...
Perchlorates have been found widespread on the surface of Mars, their origin and degradation pathway...
Recent observations of the Martian surface by the Phoenix lander and the Sample Analysis at Mars ind...
Isotopic studies indicate that natural perchlorate is produced on Earth in arid environments by the ...
The first detection of perchlorate salts in the Martian regolith was made by NASA’s Phoenix Mars lan...
Methane, perchlorates, chlorates, and methyl chlorides have all been detected on Mars. The origin of...
Perchlorate was first detected on Mars by the Wet Chemistry Laboratory (WCL) instrument on the Phoen...
The first detection of perchlorate salts in the Martian regolith was made by NASA’s Phoenix Mars lan...
We report experimental evidences to support a new formation mechanism, multiphase redox plasma chemi...
Carbon dioxide (CO<sub>2</sub>) rich chlorine-bearing ices were exposed to energetic electrons in la...
Perchlorate (ClO₄⁻) was discovered in Martian soil by the Phoenix lander, with important implication...
In extremely arid regions on Earth, such as the Atacama Desert, nitrate, sulfate and perchlorate sal...
The research presented here addresses the mechanisms for photochemical formation of perchlorate (ClO...
The results from the Viking mission in the mid 1970s provided evidence that the martian surface cont...
International audienceThe high perchlorate (ClO 4 −) to chloride (Cl −) ratios observed at the Phoen...
We show that highly oxidizing valence band holes, produced by ultraviolet (UV) illumination of natur...
Perchlorates have been found widespread on the surface of Mars, their origin and degradation pathway...