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Iron can be microbially extracted from Lunar and Martian regolith simulants and 3D printed into tough structural materials
by
Böttger, Amarante J
, Aarts, Tom F
, Schleppi, Juergen
, Marechal, Maude
, Schwentenwein, Martin
, Castelein, Sofie M
, Hendrikx, Ruud
, Benz, Dominik
, Lehner, Benjamin Ae
, Makaya, Advenit
, Brouns, Stan J
, Meyer, Anne S
in
Bioreactors
/ Colonies
/ Energy requirements
/ Iron
/ Mechanical properties
/ Microbiology
/ Resource utilization
2020
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Iron can be microbially extracted from Lunar and Martian regolith simulants and 3D printed into tough structural materials
by
Böttger, Amarante J
, Aarts, Tom F
, Schleppi, Juergen
, Marechal, Maude
, Schwentenwein, Martin
, Castelein, Sofie M
, Hendrikx, Ruud
, Benz, Dominik
, Lehner, Benjamin Ae
, Makaya, Advenit
, Brouns, Stan J
, Meyer, Anne S
in
Bioreactors
/ Colonies
/ Energy requirements
/ Iron
/ Mechanical properties
/ Microbiology
/ Resource utilization
2020
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Iron can be microbially extracted from Lunar and Martian regolith simulants and 3D printed into tough structural materials
by
Böttger, Amarante J
, Aarts, Tom F
, Schleppi, Juergen
, Marechal, Maude
, Schwentenwein, Martin
, Castelein, Sofie M
, Hendrikx, Ruud
, Benz, Dominik
, Lehner, Benjamin Ae
, Makaya, Advenit
, Brouns, Stan J
, Meyer, Anne S
in
Bioreactors
/ Colonies
/ Energy requirements
/ Iron
/ Mechanical properties
/ Microbiology
/ Resource utilization
2020
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Iron can be microbially extracted from Lunar and Martian regolith simulants and 3D printed into tough structural materials
Paper
Iron can be microbially extracted from Lunar and Martian regolith simulants and 3D printed into tough structural materials
2020
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Overview
Abstract In-situ resource utilization (ISRU) is increasingly acknowledged as an essential requirement for the construction of sustainable extra-terrestrial colonies. Even with decreasing launch costs, the ultimate goal of establishing colonies must be the usage of resources found at the destination of interest. Typical approaches towards ISRU are often constrained by the mass and energy requirements of transporting processing machineries, such as rovers and massive reactors, and the vast amount of consumables needed. Application of self-reproducing bacteria for the extraction of resources is a promising approach to avoid these pitfalls. In this work, the bacterium Shewanella oneidensis was used to reduce three different types of Lunar and Martian regolith simulants, allowing for the magnetic extraction of iron-rich materials. The quantity of bacterially extracted material was up to 5.8 times higher and the total iron concentration was up to 43.6% higher in comparison to untreated material. The materials were 3D printed into cylinders and the mechanical properties were tested, resulting in a 396 ± 115% improvement in compressive strength in the bacterially treated samples. This work demonstrates a proof of concept for the on-demand production of construction and replacement parts in space exploration. Competing Interest Statement The authors have declared no competing interest.
Publisher
Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory
Subject
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