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Jonathan S Watson

Showing results (1-10 of 19) with videos related to

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Astrobiology|September 23, 2015
Heat, Aromatic Units, and Iron-Rich Phyllosilicates: A Mechanism for Making Macromolecules in the Early Solar SystemJonathan S Watson, Mark A Sephton
Analytica Chimica Acta|May 24, 2015
Subcritical water extraction of organic matter from sedimentary rocksDuy Luong, Mark A Sephton, Jonathan S Watson
ACS Sustainable Resource Management|October 4, 2024
Predicting Stability of Barley Straw-Derived Biochars Using Fourier Transform Infrared SpectroscopyMonica A McCall, Jonathan S Watson, Mark A Sephton
Astrobiology|August 17, 2021
Transformation of Cyanobacterial Biomolecules by Iron Oxides During Flash Pyrolysis: Implications for Mars Life-Detection MissionsSamuel H Royle, Jonathan S Watson, Mark A Sephton
ACS Earth & Space Chemistry|October 28, 2022
Hydrothermal Processing of Microorganisms: Mass Spectral Signals of Degraded Biosignatures for Life Detection on Icy MoonsTara L Salter, Jonathan S Watson, J Hunter Waite, et al.
Astrobiology|January 4, 2018
The Search for Hesperian Organic Matter on Mars: Pyrolysis Studies of Sediments Rich in Sulfur and IronJames M T Lewis, Jens Najorka, Jonathan S Watson, et al.
Astrobiology|February 16, 2022
Mineral Matrix Effects on Pyrolysis Products of Kerogens Infer Difficulties in Determining Biological Provenance of Macromolecular Organic Matter at MarsSamuel H Royle, Tara L Salter, Jonathan S Watson, et al.
Astrobiology|June 20, 2019
Solid Phase Micro Extraction: Potential for Organic Contamination Control for Planetary Protection of Life-Detection Missions to the Icy Moons of the Outer Solar SystemSamuel H Royle, Jonathan S Watson, Yuting Zhang, et al.
Astrobiology|February 26, 2021
Pyrolysis of Carboxylic Acids in the Presence of Iron Oxides: Implications for Life Detection on Missions to MarsSamuel H Royle, Jonathan S W Tan, Jonathan S Watson, et al.
The New Phytologist|September 9, 2011
Contrasting wetland CH4 emission responses to simulated glacial atmospheric CO2 in temperate bogs and fensCarl P Boardman, Vincent Gauci, Jonathan S Watson, et al.
Pageof 2

Showing results (1-10 of 19) with videos related to

Sort By:
Pageof 2
Astrobiology|September 23, 2015
Heat, Aromatic Units, and Iron-Rich Phyllosilicates: A Mechanism for Making Macromolecules in the Early Solar SystemJonathan S Watson, Mark A Sephton
Analytica Chimica Acta|May 24, 2015
Subcritical water extraction of organic matter from sedimentary rocksDuy Luong, Mark A Sephton, Jonathan S Watson
ACS Sustainable Resource Management|October 4, 2024
Predicting Stability of Barley Straw-Derived Biochars Using Fourier Transform Infrared SpectroscopyMonica A McCall, Jonathan S Watson, Mark A Sephton
Astrobiology|August 17, 2021
Transformation of Cyanobacterial Biomolecules by Iron Oxides During Flash Pyrolysis: Implications for Mars Life-Detection MissionsSamuel H Royle, Jonathan S Watson, Mark A Sephton
ACS Earth & Space Chemistry|October 28, 2022
Hydrothermal Processing of Microorganisms: Mass Spectral Signals of Degraded Biosignatures for Life Detection on Icy MoonsTara L Salter, Jonathan S Watson, J Hunter Waite, et al.
Astrobiology|January 4, 2018
The Search for Hesperian Organic Matter on Mars: Pyrolysis Studies of Sediments Rich in Sulfur and IronJames M T Lewis, Jens Najorka, Jonathan S Watson, et al.
Astrobiology|February 16, 2022
Mineral Matrix Effects on Pyrolysis Products of Kerogens Infer Difficulties in Determining Biological Provenance of Macromolecular Organic Matter at MarsSamuel H Royle, Tara L Salter, Jonathan S Watson, et al.
Astrobiology|June 20, 2019
Solid Phase Micro Extraction: Potential for Organic Contamination Control for Planetary Protection of Life-Detection Missions to the Icy Moons of the Outer Solar SystemSamuel H Royle, Jonathan S Watson, Yuting Zhang, et al.
Astrobiology|February 26, 2021
Pyrolysis of Carboxylic Acids in the Presence of Iron Oxides: Implications for Life Detection on Missions to MarsSamuel H Royle, Jonathan S W Tan, Jonathan S Watson, et al.
The New Phytologist|September 9, 2011
Contrasting wetland CH4 emission responses to simulated glacial atmospheric CO2 in temperate bogs and fensCarl P Boardman, Vincent Gauci, Jonathan S Watson, et al.
Pageof 2