Articles citing this paper
FeIIaq–FeIIIoxide electron transfer and Fe exchange: effect of organic carbon
Timothy Pasakarnis A , Michael L. McCormick B , Gene F. Parkin A , Aaron Thompson C and Michelle M. Scherer A D
+ Author Affiliations
- Author Affiliations
A Department of Civil and Environmental Engineering, The University of Iowa, Iowa City, IA 52242, USA.
B Department of Biology, Hamilton College, Clinton, NY 13323, USA.
C Department of Crop and Soil Sciences, University of Georgia, Athens, GA 30602, USA.
D Corresponding author. Email: michelle-scherer@uiowa.edu
Environmental Chemistry 12(1) 52-63 https://doi.org/10.1071/EN14035
Submitted: 15 February 2014 Accepted: 30 August 2014 Published: 5 December 2014
27 articles found in Crossref database.
Stable mineral recrystallization in low temperature aqueous systems: A critical review
Gorski Christopher A., Fantle Matthew S.
Geochimica et Cosmochimica Acta. 2017 198 p.439
Ferrous Iron Oxidation under Varying pO2 Levels: The Effect of Fe(III)/Al(III) Oxide Minerals and Organic Matter
Chen Chunmei, Thompson Aaron
Environmental Science & Technology. 2018 52(2). p.597
Influence of Oxalate on Ni Fate during Fe(II)-Catalyzed Recrystallization of Hematite and Goethite
Flynn Elaine D., Catalano Jeffrey G.
Environmental Science & Technology. 2018 52(12). p.6920
Mineral Defects Enhance Bioavailability of Goethite toward Microbial Fe(III) Reduction
Notini Luiza,
Byrne James M.,
Tomaszewski Elizabeth J.,
Latta Drew E.,
Zhou Zhe,
Scherer Michelle M., Kappler Andreas
Environmental Science & Technology. 2019 53(15). p.8883
Redox characterization of the Fe(II)-catalyzed transformation of ferrihydrite to goethite
Jones Adele M.,
Collins Richard N., Waite T. David
Geochimica et Cosmochimica Acta. 2017 218 p.257
The Role of Defects in Fe(II)–Goethite Electron Transfer
Notini Luiza,
Latta Drew E.,
Neumann Anke,
Pearce Carolyn I.,
Sassi Michel,
N’Diaye Alpha T.,
Rosso Kevin M., Scherer Michelle M.
Environmental Science & Technology. 2018 52(5). p.2751
Susceptibility of Goethite to Fe2+-Catalyzed Recrystallization over Time
Joshi Prachi,
Fantle Matthew S.,
Larese-Casanova Philip, Gorski Christopher A.
Environmental Science & Technology. 2017 51(20). p.11681
Fe(III) stabilizing soil organic matter and reducing methane emissions in paddy fields under varying flooding conditions
Sun Zheng,
Li Huabin,
Hu Jinli,
Wu Xian,
Su Ronglin,
Yan Ling,
Sun Xiaolei,
Shaaban Muhammad,
Wang Yan,
Quénéa Katell, Hu Ronggui
Ecotoxicology and Environmental Safety. 2023 259 p.114999
Mediated Electrochemical Reduction of Iron (Oxyhydr-)Oxides under Defined Thermodynamic Boundary Conditions
Aeppli Meret,
Voegelin Andreas,
Gorski Christopher A.,
Hofstetter Thomas B., Sander Michael
Environmental Science & Technology. 2018 52(2). p.560
Monitoring Soil Surface Mineralogy at Different Moisture Conditions Using Visible Near-Infrared Spectroscopy Data
Ymeti Irena,
Pikha Shrestha Dhruba, van der Meer Freek
Remote Sensing. 2019 11(21). p.2526
Impact of ecohydrological fluctuations on iron-redox cycling
Calabrese Salvatore, Porporato Amilcare
Soil Biology and Biochemistry. 2019 133 p.188
Roles of aqueous Fe(III) in oxidation of partially reduced nontronite under sub-acidic conditions
Guo Jing,
Zhang Xiaobo,
Hu Qinhong, Gao Xubo
Applied Clay Science. 2020 195 p.105689
Electron Transfer, Atom Exchange, and Transformation of Iron Minerals in Soils: The Influence of Soil Organic Matter
Chen Chunmei,
Dong Yanjun, Thompson Aaron
Environmental Science & Technology. 2023 57(29). p.10696
Vertical distribution of Fe, P and correlation with organic carbon in coastal sediments of Yellow Sea, Eastern China
Qi Zizhen,
Gao Lei,
Chen Daixing,
Wang Xuhao,
Liu Huan,
Yang Yang,
Zhao Yulian, Lu Xiancai
Frontiers in Marine Science. 2023 10
Fe(II)-Catalyzed Transformation of Organic Matter–Ferrihydrite Coprecipitates: A Closer Look Using Fe Isotopes
Zhou Zhe,
Latta Drew E.,
Noor Nadia,
Thompson Aaron,
Borch Thomas, Scherer Michelle M.
Environmental Science & Technology. 2018 52(19). p.11142
Contrasting effects of phosphate on the rapid transformation of schwertmannite to Fe(III) (oxy)hydroxides at near-neutral pH
Schoepfer Valerie A.,
Burton Edward D., Johnston Scott G.
Geoderma. 2019 340 p.115
Enrichment of d-lactic acid from organic wastes catalyzed by zero-valent iron: an approach for sustainable lactate isomerization
Li Xiang,
Zhang Wenjuan,
Xue Shunli,
Lai Sizhou,
Li Jun,
Chen Hong,
Liu Zhenhong, Xue Gang
Green Chemistry. 2017 19(4). p.928
Foreword to the Research Front on ‘Mineral–Organic Interactions in Aqueous Systems’
Chorover Jon
Environmental Chemistry. 2015 12(1). p.i
Ferrihydrite transformation under the impact of humic acid and Pb: kinetics, nanoscale mechanisms, and implications for C and Pb dynamics
Lu Yang,
Hu Shiwen,
Wang Zimeng,
Ding Yang,
Lu Guining,
Lin Zhang,
Dang Zhi, Shi Zhenqing
Environmental Science: Nano. 2019 6(3). p.747
Character of Humic Substances as a Predictor for Goethite Nanoparticle Reactivity and Aggregation
Vindedahl Amanda M.,
Stemig Melissa S.,
Arnold William A., Penn R. Lee
Environmental Science & Technology. 2016 50(3). p.1200
Insights into the underlying effect of Fe vacancy defects on the adsorption affinity of goethite for arsenic immobilization
Hou Jingtao,
Tan Xiaoke,
Xiang Yongjin,
Zheng Qian,
Chen Chang,
Sha Zhenjie,
Ren Lu,
Wang Mingxia, Tan Wenfeng
Environmental Pollution. 2022 314 p.120268
Organic buffers act as reductants of abiotic and biogenic manganese oxides
Hausladen Debra M., Peña Jasquelin
Scientific Reports. 2023 13(1).
Coexisting Goethite Promotes Fe(II)-Catalyzed Transformation of Ferrihydrite to Goethite
Notini Luiza,
ThomasArrigo Laurel K.,
Kaegi Ralf, Kretzschmar Ruben
Environmental Science & Technology. 2022 56(17). p.12723
Iron Isotope Fractionation during Fe(II) Oxidation Mediated by the Oxygen-Producing Marine Cyanobacterium Synechococcus PCC 7002
Swanner E. D.,
Bayer T.,
Wu W.,
Hao L.,
Obst M.,
Sundman A.,
Byrne J. M.,
Michel F. M.,
Kleinhanns I. C.,
Kappler A., Schoenberg R.
Environmental Science & Technology. 2017 51(9). p.4897
A Closer Look at Fe(II) Passivation of Goethite
Notini Luiza,
Latta Drew E.,
Neumann Anke,
Pearce Carolyn I.,
Sassi Michel,
N’Diaye Alpha T.,
Rosso Kevin M., Scherer Michelle M.
ACS Earth and Space Chemistry. 2019 3(12). p.2717
Divergent redistribution behavior of divalent metal cations associated with Fe(II)-mediated jarosite phase transformation
Jin Xiaohu,
Guo Chuling,
Tao Xueqin,
Li Xiaofei,
Xie Yingying,
Dang Zhi, Lu Guining
Environmental Pollution. 2024 350 p.124004
Ferrihydrite Growth and Transformation in the Presence of Ferrous Iron and Model Organic Ligands
ThomasArrigo Laurel K.,
Kaegi Ralf, Kretzschmar Ruben
Environmental Science & Technology. 2019 53(23). p.13636
