Alan T. Stone
Affiliations: | Geography and Environmental Engineering | Johns Hopkins University, Baltimore, MD |
Area:
Aquatic ChemistryWebsite:
https://inbt.jhu.edu/people/alan-stone/Google:
"Alan T. Stone"Bio:
http://globalwater.jhu.edu/bio/alan_t._stone/
https://www.researchgate.net/profile/Alan-Stone
https://scholar.google.com/citations?user=Yg7qXRgAAAAJ&hl=en
Stone, Alan Thomas (1983) The Reduction and Dissolution of Manganese(III) and (IV) Oxides by Organics. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/MSQ2-M609.
Mean distance: 9.86 | S | N | B | C | P |
Cross-listing: Envirotree
Parents
Sign in to add mentor| James J. Morgan | grad student | 1983 | Caltech | |
| (The reduction and dissolution of manganese(III) and (IV) oxides by organics) | ||||
Children
Sign in to add trainee| Ching-Hua Huang | grad student | Johns Hopkins (E-Tree) | |
| Alba Torrents | grad student | 1992 | Johns Hopkins (E-Tree) |
| Timothy J. Strathmann | grad student | 2002 | Johns Hopkins |
| Charles F. Whitehead | grad student | 2004 | Johns Hopkins |
| Richard F. Carbonaro | grad student | 2005 | Johns Hopkins |
| Minori Uchimiya | grad student | 2006 | Johns Hopkins |
| Nathan E. Boland | grad student | 2011 | Johns Hopkins |
| R. Lee Penn | post-doc | 1998-2000 | Johns Hopkins |
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Publications
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| Boland NE, Stone AT. (2022) Ligand Steric Interactions Modulate Multidentate Ligand Exchange Pathways: Kinetics of Nickel(II) Ion Capture from N-Substituted IDA Complexes by CDTA. Inorganic Chemistry |
| Xia X, Stone AT. (2019) Mandelic acid and phenyllactic acid "Reaction Sets" for exploring the kinetics and mechanism of oxidations by hydrous manganese oxide (HMO). Environmental Science. Processes & Impacts |
| Boland NE, Stone AT. (2017) Rates of nickel(II) capture from complexes with NTA, EDDA, and related tetradentate chelating agents by the hexadentate chelating agents EDTA and CDTA: Evidence of a “semijunctive” ligand exchange pathway Geochimica Et Cosmochimica Acta. 212: 176-195 |
| Wadhawan AR, Livi KJ, Stone AT, et al. (2015) Influence of oxygenation on chromium redox reactions with manganese sulfide (MnS(s)). Environmental Science & Technology. 49: 3523-31 |
| Carbonaro RF, Stone AT. (2015) Oxidation of CrIII aminocarboxylate complexes by hydrous manganese oxide: Products and time course behaviour Environmental Chemistry. 12: 33-51 |
| Whitehead CF, Carbonaro RF, Stone AT. (2014) Adsorption of Benzoic Acid and Related Carboxylic Acids onto FeOOH(Goethite): The Low Ionic Strength Regime Aquatic Geochemistry. 21: 99-121 |
| Wadhawan AR, Stone AT, Bouwer EJ. (2013) Biogeochemical controls on hexavalent chromium formation in estuarine sediments. Environmental Science & Technology. 47: 8220-8 |
| Boland NE, Stone AT. (2013) Capillary electrophoresis facilitates determination of metal complex stoichiometry by Job's method of continuous variation Environmental Chemistry. 10: 409-416 |
| Zhang S, Livi KJT, Gaillot AC, et al. (2010) Determination of manganese valence states in (Mn3+, Mn 4+) minerals by electron energy-loss spectroscopy American Mineralogist. 95: 1741-1746 |
| Uchimiya M, Stone AT. (2010) Reduction of substituted p-benzoquinones by FeII near neutral pH Aquatic Geochemistry. 16: 173-188 |