about
Evidence for reactive reduced phosphorus species in the early Archean oceanRethinking early Earth phosphorus geochemistryA Raman spectroscopic study of a fulgurite.Aqueous corrosion of phosphide minerals from iron meteorites: a highly reactive source of prebiotic phosphorus on the surface of the early Earth.On the prebiotic potential of reduced oxidation state phosphorus: the H-phosphinate-pyruvate system.Rapid Raman mapping of a fulgurite.Is struvite a prebiotic mineral?Redox chemistry in the phosphorus biogeochemical cycle.The evolution of the surface of the mineral schreibersite in prebiotic chemistry.Nucleoside phosphorylation by the mineral schreibersiteA Fossilized Energy Distribution of Lightning.On the abundances of noble and biologically relevant gases in Lake Vostok, Antarctica.Silicate-Promoted Phosphorylation of Glycerol in Non-Aqueous Solvents: A Prebiotically Plausible Route to OrganophosphatesPhosphate Activation via Reduced Oxidation State Phosphorus (P). Mild Routes to Condensed-P Energy Currency Molecules.Prebiotic phosphate ester syntheses in a deep eutectic solvent.Phosphorus: a case for mineral-organic reactions in prebiotic chemistry.Extraterrestrial flux of potentially prebiotic C, N, and P to the early Earth.Archean phosphorus liberation induced by iron redox geochemistry.Darwin's Warm Little Pond: A One-Pot Reaction for Prebiotic Phosphorylation and the Mobilization of Phosphate from Minerals in a Urea-Based Solvent.Acidification of Europa's subsurface ocean as a consequence of oxidant delivery.Caveats to Exogenous Organic Delivery from Ablation, Dilution, and Thermal Degradation.Lightning-induced reduction of phosphorus oxidation stateA primordial origin for the atmospheric methane of Saturn’s moon TitanWithout phosphate limitsClathration of volatiles in the solar nebula and implications for the origin of Titan's atmosphereProduction of Potentially Prebiotic Condensed Phosphates by Phosphorus Redox ChemistryA role for phosphorus redox in emerging and modern biochemistryPhosphorus volatility in the early solar nebulaThermodynamics of Prebiotic Phosphorylation
P50
Q22066256-36E9FCAA-2430-4274-8786-9164E53A79A7Q24647434-F52D374E-4E0E-445A-A332-514647DD54A5Q30984174-2BBDFEDA-0B28-415F-BF7C-6073CDA64AA4Q33221054-9451C401-EAC1-4587-B899-33B00789F282Q34022035-C2EA5501-C7E1-4509-BCCC-1684854972DAQ34103936-FF61CCEF-41D6-483F-A75F-67406005615AQ34295665-19EC2483-3182-4C22-A289-83B850DE51C9Q34442281-618959E1-9567-4F09-99C6-1621D3F6D35FQ36011718-7C5E8C1C-8E28-4352-BA78-C0834167D561Q36320936-BD36574E-3A3C-49E8-9AD7-A99E774766DCQ37134255-C356D5D6-78D7-42EA-91C7-11D57059EBF6Q39403795-B599524E-EFD5-4C9F-9E36-1D9ED9796E06Q41666537-493AED30-714A-4EE7-8930-D0959D7AEED4Q42177819-9CAFE72A-A892-4AE5-AFCD-1D01C279A500Q43610368-EB117BEE-BABF-405C-AED2-2A6EC81D180FQ47429722-30CE8790-1340-4AB1-B5B7-70F68A2F3D79Q47755373-97966668-2D34-44A1-9BC2-D29FA9CC92E0Q52597753-EBAA05EB-F2DF-421D-9A06-5721EF87D399Q54713434-60318E26-F772-4F87-971D-E315E131B5C5Q55055595-27A6BD9B-0753-42F2-97CE-0C9AF1E72D7EQ55615022-37452407-4911-4CC4-A92C-AB12573E28B2Q56226903-0DC75D99-1DC9-4D7D-BC49-4D15EC6EBD7BQ57595621-7667DA7B-2D6C-49B3-B5FF-B88DA7730826Q61876341-2B5E3A4F-FEEA-4FD0-B21F-ECABCBE12942Q61876345-3CD37424-744D-4A93-9C29-24F15C652C8AQ61876349-6F72C039-91E5-4802-BA2F-CE72DF3110C2Q63355997-4C8C6DEA-A8FD-4A74-BCED-09908BD51271Q63356000-12270C2A-2535-4DBE-A18F-8838C509770EQ91314575-35188A7A-78AD-45CA-A055-4E23293DA782
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Matthew Pasek
@ast
Matthew Pasek
@en
Matthew Pasek
@es
Matthew Pasek
@nl
Matthew Pasek
@sl
type
label
Matthew Pasek
@ast
Matthew Pasek
@en
Matthew Pasek
@es
Matthew Pasek
@nl
Matthew Pasek
@sl
prefLabel
Matthew Pasek
@ast
Matthew Pasek
@en
Matthew Pasek
@es
Matthew Pasek
@nl
Matthew Pasek
@sl
P1053
A-7071-2008
P106
P1153
8726003700
P21
P31
P3829
P496
0000-0003-1280-9555