about
Self-organization in precipitation reactions far from the equilibriumNatural pH Gradients in Hydrothermal Alkali Vents Were Unlikely to Have Played a Role in the Origin of LifeWavy membranes and the growth rate of a planar chemical garden: Enhanced diffusion and bioenergeticsThe Abiotic Chemistry of Thiolated Acetate Derivatives and the Origin of LifeSynchronized chaotic targeting and acceleration of surface chemistry in prebiotic hydrothermal microenvironmentsComplexity from precipitation reactions.Looked at life from both sides nowThe life story of hydrogen peroxide II: a periodic pH and thermochemical drive for the RNA world.A recursive vesicle-based model protocell with a primitive model cell cycle.Chemistry in nanoconfined water.Can Life Begin on Enceladus? A Perspective from Hydrothermal Chemistry.Chemical Gardens as Flow-through Reactors Simulating Natural Hydrothermal Systems.The Role of Hydrogen Sulfide in Evolution and the Evolution of Hydrogen Sulfide in Metabolism and Signaling.Proton gradients at the origin of life.Energetics of Amino Acid Synthesis in Alkaline Hydrothermal Environments.On the complex structural diffusion of proton holes in nanoconfined alkaline solutions within slit pores.Ancient Living Organisms Escaping from, or Imprisoned in, the Vents?Feasibility of Detecting Bioorganic Compounds in Enceladus Plumes with the Enceladus Organic Analyzer.The Landscape of the Emergence of Life.Methane: Fuel or Exhaust at the Emergence of Life?Thermodynamics, Disequilibrium, Evolution: Far-From-Equilibrium Geological and Chemical Considerations for Origin-Of-Life Research.In situ electrochemical enrichment and isolation of a magnetite-reducing bacterium from a high pH serpentinizing spring.The Possible Emergence of Life and Differentiation of a Shallow Biosphere on Irradiated Icy Worlds: The Example of Europa.Darwin's prescient guess.From Chemical Gardens to Fuel Cells: Generation of Electrical Potential and Current Across Self-Assembling Iron Mineral Membranes.First observation of HO˙ reactivity in water under high energy ions at elevated temperature.Habitability on Early Mars and the Search for Biosignatures with the ExoMars Rover.The "Origin-of-Life Reactor" and Reduction of CO2 by H2 in Inorganic Precipitates.Iron catalysis at the origin of life.Expanding the informational chemistries of life: peptide/RNA networks.Microbial habitability of Europa sustained by radioactive sources.Spontaneous formation of complex structures made from elastic membranes in an aluminum-hydroxide-carbonate system.Geoelectrochemical CO production: Implications for the autotrophic origin of life.Mimicking the surface and prebiotic chemistry of early Earth using flow chemistry.Acetyl Phosphate as a Primordial Energy Currency at the Origin of LifeMethane on Mars and Habitability: Challenges and ResponsesGeophysical controls of chemical disequilibria in EuropaGreen Rust: The Simple Organizing 'Seed' of All Life?Is pre-Darwinian evolution plausible?
P2860
Q26739712-622175A8-4BA6-4FA3-8C0C-7798C604B657Q28076481-0DCA1EB1-204D-40F7-BC72-C9EE0A6AF890Q28829225-BB389D1A-8EF3-44B2-AE6F-792167430548Q28829278-276F1AA9-C3F5-4F95-92D0-910F199753A1Q30838504-D3228EF7-2476-4F31-BE42-289D5E87EA27Q34709299-184ACCA6-21C5-477A-85B4-7D70A629299BQ34829539-2A22D611-7115-4A01-B0E0-A3C6D04F8861Q35950043-035B3441-BBC9-4DA1-B325-A748C802DFA1Q36138480-F6E1E3D2-E18C-460F-B5B3-227D7E4B3E1EQ36372696-C44105C9-DFB8-48E9-A352-EB66EA9E68B7Q38430071-8AFC103A-58DF-4E32-ADD1-4B50FACC38B1Q38440681-B9152697-F234-4A9C-B722-01E11F01DB9BQ38671099-F532EE18-4FC5-46F2-9FEC-4FDD83735B2EQ39306264-8D0B29CE-D974-4E27-BF09-EC954B7CE25AQ41183776-76658048-7116-4086-8C45-5F0005ACB6B0Q41228952-4439ADF4-ACBD-471C-8995-D4814F5ECF5AQ41666512-21455F5B-012E-41CE-8F60-E35F38CEB6D9Q41690899-83EA5003-2E48-4CE9-8785-41FD82125058Q42333432-922EA566-414A-4CE6-AAFF-482FD47492EEQ43032688-09A589B4-CDCF-4F49-9056-2857386A9859Q43457644-EDA0E2FF-0DD1-4DB5-8180-6B884E17C2A8Q46170817-D547B13D-3F25-48C2-98D9-13202692944FQ46289813-D4D086F3-8606-4085-A197-62441349796DQ46316484-FA8994A5-BFAA-4318-9E15-BA843FE790F7Q46780192-35B8F67E-D901-44B6-BEF1-4898BF65C32AQ46829308-A4934BDC-D55F-4BAF-8D4A-5B2414800254Q47140722-30CB1B03-DE91-4FB8-9DA4-5973D15EB935Q47200239-BB381F6E-9DF1-4F51-85FA-91503F8FBB2FQ47216711-D4F62D9A-2D68-4E98-BCF1-4DA97788C1EEQ47352694-1EC660D1-47FE-44DD-987F-FA22BCAD1C05Q47739706-63FCFE37-93B4-4D56-AD81-79D8C2E1842CQ50891934-FC58226D-6A0B-448C-953F-28CF80AEF553Q52597436-EE20E75E-2B02-4623-8773-AAC0F27F1870Q54989376-FDCC738B-60B2-4DED-8D1E-7C0C504FBE25Q57006255-C9BDF74B-7DF9-43E9-8655-C95CCE277518Q57154374-FFC1CE5D-5794-4082-8897-8AB05F8FCD24Q57848990-B902E665-027F-4A33-94F4-C08D9864BF89Q58700184-E1AF9E3B-7298-4560-8E96-F60B70D8D1B6Q58706554-0098A9F9-0869-4D76-9DD3-A24F3FA2A953
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
The drive to life on wet and icy worlds
@ast
The drive to life on wet and icy worlds
@en
The drive to life on wet and icy worlds
@nl
type
label
The drive to life on wet and icy worlds
@ast
The drive to life on wet and icy worlds
@en
The drive to life on wet and icy worlds
@nl
prefLabel
The drive to life on wet and icy worlds
@ast
The drive to life on wet and icy worlds
@en
The drive to life on wet and icy worlds
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
The drive to life on wet and icy worlds
@en
P2093
David H Meier
Dylan Bocanegra
Elbert Branscomb
Isik Kanik
Laura M Barge
Lauren White
Michael J Russell
Richard Kidd
Rohit Bhartia
Takazo Shibuya
P2860
P304
P3181
P356
10.1089/AST.2013.1110
P407
P577
2014-04-03T00:00:00Z