about
Uranium Biominerals Precipitated by an Environmental Isolate of Serratia under Anaerobic Conditions.Biostimulation by Glycerol Phosphate to Precipitate Recalcitrant Uranium(IV) Phosphate.Microbial reduction of Fe(III) under alkaline conditions relevant to geological disposal.Characterising legacy spent nuclear fuel pond materials using microfocus X-ray absorption spectroscopy.Controls on the Fate and Speciation of Np(V) During Iron (Oxyhydr)oxide Crystallization.Incorporation of Uranium into Hematite during crystallization from ferrihydrite.Probing the biogeochemical behavior of technetium using a novel nuclear imaging approach.Role of nitrate in conditioning aquifer sediments for technetium bioreduction.Performance of three resin-based materials for treating uranium-contaminated groundwater within a PRB.Incorporation and retention of 99-Tc(IV) in magnetite under high pH conditions.Alteration of sediments by hyperalkaline K-rich cement leachate: implications for strontium adsorption and incorporation.Ferrihydrite Formation: The Role of Fe13 Keggin Clusters.Influence of riboflavin on the reduction of radionuclides by Shewanella oneidenis MR-1.Quantifying Technetium and Strontium Bioremediation Potential in Flowing Sediment Columns.Impacts of Repeated Redox Cycling on Technetium Mobility in the Environment.Geomicrobiological redox cycling of the transuranic element neptunium.The behaviour of technetium during microbial reduction in amended soils from Dounreay, UK.Reoxidation behavior of technetium, iron, and sulfur in estuarine sediments.Effects of progressive anoxia on the solubility of technetium in sediments.Formation of stable uranium(VI) colloidal nanoparticles in conditions relevant to radioactive waste disposal.Redox Interactions of Tc(VII), U(VI), and Np(V) with Microbially Reduced Biotite and Chlorite.Effect of groundwater pH and ionic strength on strontium sorption in aquifer sediments: Implications for 90Sr mobility at contaminated nuclear sitesThe fate of technetium in reduced estuarine sediments: Combining direct and indirect analysesUranium and technetium interactions with wüstite [Fe1–xO] and portlandite [Ca(OH)2] surfaces under geological disposal facility conditionsStability, Composition, and Core–Shell Particle Structure of Uranium(IV)-Silicate ColloidsNp(V) sorption and solubility in high pH calcite systemsIron Vacancies Accommodate Uranyl Incorporation into HematiteUranium(V) Incorporation Mechanisms and Stability in Fe(II)/Fe(III) (oxyhydr)OxidesBacterial Diversity in the Hyperalkaline Allas Springs (Cyprus), a Natural Analogue for Cementitious Radioactive Waste RepositoryRetention of99mTc at Ultra-trace Levels in Flowing Column Experiments – Insights into Bioreduction and Biomineralization for Remediation at Nuclear FacilitiesBioreduction of iodate in sediment microcosmsHerbert's Quarry, South Wales – an analogue for host-rock alteration at a cementitious radioactive waste repository?Microbially mediated reduction of Np(V) by a consortium of alkaline tolerant Fe(III)-reducing bacteriaNeptunium and manganese biocycling in nuclear legacy sediment systemsReversibility in radionuclide/bentonite bulk and colloidal ternary systemsThe IGD-TP Geodisposal 2014: Introduction to the Conference ProceedingsThe stability of microbially reduced U(IV); impact of residual electron donor and sediment ageingU(VI) behaviour in hyperalkaline calcite systemsUranium fate during crystallization of magnetite from ferrihydrite in conditions relevant to the disposal of radioactive wasteAdsorption of radium and barium on goethite and ferrihydrite: A kinetic and surface complexation modelling study
P50
Q35679936-3BDC4B06-CF1A-48A5-825A-5494728DEBD6Q35751425-2F97D1FC-7D9C-4DD8-8F50-0A582EAD7BF1Q36827025-FCC91DD4-D56F-47BB-A889-64768B4143A7Q38407559-A7D7F69D-CF01-4C06-83AA-2490D27270EDQ39969745-FCD68B11-4D0D-4690-80D2-ABF3CD7FFDC3Q40773984-FDD384AB-DA8D-4A6D-A3BA-A3F8AB3831EAQ43205630-6A587918-A84E-403D-90EE-140872260B0CQ43205632-BD83960B-1A93-4A51-958A-8C3C5F2945F5Q43317589-20B12A40-622F-429C-993D-D2E0B3247528Q44552080-24F3BEBF-12DF-46B8-A106-B5E3335DD68CQ46464011-7DBC9448-F913-480B-803A-4AE3F0ABCBBDQ46507741-EF092E3D-C2CA-4FE0-8C59-F40DD7E882B2Q46628814-E70F76F7-6B71-401D-9C5A-3BF25E7DDCABQ48259995-D6A45FA9-4692-4D6D-8DE7-F95FB4D81C33Q48292171-7540F92F-748A-40AD-8B0C-B60AA8C53B82Q51615721-0AD8C688-3E26-4A03-AA99-0E14CD364884Q52854762-3A23093D-2000-4967-AF6B-E637D0341E27Q52855618-1BB051F8-A893-4CD5-8C29-84B8CA6A110EQ52857735-8B3E815D-7AF1-4D14-9739-9B439FC760F3Q53387134-D8E5BF73-08E9-4D11-9CD1-83D67DED37A4Q53662051-0D701C6E-F828-4096-B28B-EFC376C127CBQ54888019-1B2CF1E2-7067-4000-855F-1A5D93D896D7Q56833039-9035407E-BF18-47F9-B378-F6AE91D65B4FQ57842779-4F60D17B-F894-47C4-8832-5B8143FA76D4Q57855785-779EF869-BA99-49F8-9019-BFCCED625958Q57855789-8B9A73A3-29C5-4DD2-BA16-728A42F54E51Q57855795-861669EF-2A73-4D81-A4A1-C4ED5279028AQ57855803-8492376A-35EC-4D5F-8DF7-D1DDF3CE95C8Q57855808-F84F510E-51B7-4D97-97E2-E525C3BEDC7BQ57855814-2380CABB-4C32-476A-AF22-C6692B5991C7Q57855818-7F136F62-6848-494C-80D6-F22922666A4DQ57855823-829CD479-C172-46CF-BBA3-DAF210A15120Q57855827-4F2630C8-20CF-4597-9713-B9E7AA8F6003Q57855832-8725145E-437F-4206-AC48-7491F83657FFQ57855836-1DBBE06F-4465-4B8F-A57D-3C9441E6CD48Q57855840-C1D17213-604D-4412-9F7D-8692C5C244CCQ57855844-E66ECA93-6D78-4764-9DBF-BBD2607E8675Q57855848-D5C64457-5FB2-4CA8-AD15-264EB5FE7051Q57855853-6925D5A1-2B65-4DFF-9BAC-01AD659ABF47Q57855857-6254812E-7541-49C8-8DE8-CD1FDF91310A
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Katherine Morris
@ast
Katherine Morris
@en
Katherine Morris
@es
Katherine Morris
@nl
Katherine Morris
@sl
type
label
Katherine Morris
@ast
Katherine Morris
@en
Katherine Morris
@es
Katherine Morris
@nl
Katherine Morris
@sl
prefLabel
Katherine Morris
@ast
Katherine Morris
@en
Katherine Morris
@es
Katherine Morris
@nl
Katherine Morris
@sl
P106
P1153
7202939108
P21
P31
P496
0000-0002-0716-7589