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M Di Toro

Showing results (81-90 of 89) with videos related to

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Journal of Hazardous Materials|October 7, 2022
Ferrocyanide enhanced evaporative flux to remediate soils contaminated with produced water brineKathryn L Platt, Dominic M Di Toro, Richard F Carbonaro, et al.
Environmental Science & Technology|September 9, 2020
Reduction of 3-Nitro-1,2,4-Triazol-5-One (NTO) by the Hematite-Aqueous Fe(II) Redox CouplePaula A Cárdenas-Hernández, Katelyn A Anderson, Jimmy Murillo-Gelvez, et al.
Environmental Toxicology and Chemistry|November 5, 2005
Predicting sediment metal toxicity using a sediment biotic ligand model: methodology and initial applicationDominic M Di Toro, Joy A McGrath, David J Hansen, et al.
Environmental Science & Technology|February 6, 2025
Predicting Abiotic Reduction Rate Constants of Munition Compounds in SoilsPaula A Cárdenas-Hernández, Jimmy Murillo-Gelvez, Juan C Rincón-Rodríguez, et al.
Environmental Science & Technology|September 26, 2024
Comparative Evaluation of Mediated Electrochemical Reduction and Chemical Redox Titration for Quantifying the Electron Accepting Capacities of Soils and Redox-Active Soil ConstituentsJuan C Rincón-Rodríguez, Paula A Cárdenas-Hernández, Jimmy Murillo-Gelvez, et al.
Environmental Toxicology and Chemistry|January 21, 2018
Re-evaluation of target lipid model-derived HC5 predictions for hydrocarbonsJoy A McGrath, Christopher J Fanelli, Dominic M Di Toro, et al.
Environmental Science & Technology|December 13, 2006
Terrestrial biotic ligand model. 2. Application to Ni and Cu toxicities to plants, invertebrates, and microbes in soilSagar Thakali, Herbert E Allen, Dominic M Di Toro, et al.
Comparative Biochemistry and Physiology. Toxicology & Pharmacology : CBP|November 14, 2002
The biotic ligand model: a historical overviewPaul R Paquin, Joseph W Gorsuch, Simon Apte, et al.
Physical Review Letters|May 14, 2009
Fast ternary and quaternary breakup of the 197Au + 197Au system in collisions at 15 MeV/nucleonI Skwira-Chalot, K Siwek-Wilczyńiska, J Wilczyński, et al.
Pageof 9

Showing results (81-90 of 89) with videos related to

Sort By:
Pageof 9
You have reached the last page of results.This site can display upto 89 results.
Journal of Hazardous Materials|October 7, 2022
Ferrocyanide enhanced evaporative flux to remediate soils contaminated with produced water brineKathryn L Platt, Dominic M Di Toro, Richard F Carbonaro, et al.
Environmental Science & Technology|September 9, 2020
Reduction of 3-Nitro-1,2,4-Triazol-5-One (NTO) by the Hematite-Aqueous Fe(II) Redox CouplePaula A Cárdenas-Hernández, Katelyn A Anderson, Jimmy Murillo-Gelvez, et al.
Environmental Toxicology and Chemistry|November 5, 2005
Predicting sediment metal toxicity using a sediment biotic ligand model: methodology and initial applicationDominic M Di Toro, Joy A McGrath, David J Hansen, et al.
Environmental Science & Technology|February 6, 2025
Predicting Abiotic Reduction Rate Constants of Munition Compounds in SoilsPaula A Cárdenas-Hernández, Jimmy Murillo-Gelvez, Juan C Rincón-Rodríguez, et al.
Environmental Science & Technology|September 26, 2024
Comparative Evaluation of Mediated Electrochemical Reduction and Chemical Redox Titration for Quantifying the Electron Accepting Capacities of Soils and Redox-Active Soil ConstituentsJuan C Rincón-Rodríguez, Paula A Cárdenas-Hernández, Jimmy Murillo-Gelvez, et al.
Environmental Toxicology and Chemistry|January 21, 2018
Re-evaluation of target lipid model-derived HC5 predictions for hydrocarbonsJoy A McGrath, Christopher J Fanelli, Dominic M Di Toro, et al.
Environmental Science & Technology|December 13, 2006
Terrestrial biotic ligand model. 2. Application to Ni and Cu toxicities to plants, invertebrates, and microbes in soilSagar Thakali, Herbert E Allen, Dominic M Di Toro, et al.
Comparative Biochemistry and Physiology. Toxicology & Pharmacology : CBP|November 14, 2002
The biotic ligand model: a historical overviewPaul R Paquin, Joseph W Gorsuch, Simon Apte, et al.
Physical Review Letters|May 14, 2009
Fast ternary and quaternary breakup of the 197Au + 197Au system in collisions at 15 MeV/nucleonI Skwira-Chalot, K Siwek-Wilczyńiska, J Wilczyński, et al.
Pageof 9