Joseph J. Pignatello
Affiliations: | Yale University, New Haven, CT |
Area:
Environmental Engineering, Environmental SciencesWebsite:
https://portal.ct.gov/CAES/ABOUT-CAES/Staff-Biographies/Joseph-J-PignatelloGoogle:
"Joseph Pignatello"Bio:
https://books.google.com/books?id=JmZKAQAAMAAJ
Cross-listing: Envirotree
Parents
Sign in to add mentor| Frederick Richard (Fritz) Jensen | grad student | 1977 | UC Berkeley (Chemistry Tree) | |
| (The Reaction of a Mononuclear Cobalt Oxygen Complex with Acids: Kinetics and Mechanism.) | ||||
Children
Sign in to add trainee| Michael Sander | grad student | ETH Zürich, Strasbourg | |
| Baoshan Xing | grad student | 1994-1995 | (Chemistry Tree) |
| Washington Braida | post-doc | ||
| Chia-Ying Chen | post-doc | (Envirotree) | |
| Margaret Hunter | post-doc | Hofstra University | |
| Charisma Lattao | post-doc | University of Houston | |
| Allison MacKay | post-doc | (Chemistry Tree) | |
| Jason White | post-doc | Connecticut Agricultural Experiment Station | |
| Hotze Wijnja | post-doc | Suffolk University | |
| Dongye Zhao | post-doc | ||
| Dongqiang Zhu | post-doc | 2003 | Connecticut Agricultural Experiment Station (Chemistry Tree) |
| Peng Yi | post-doc | 2013-2014 | (Chemistry Tree) |
| Feng Frank Xiao | post-doc | 2012-2015 | |
| Chengjin Wang | post-doc | 2021-2021 | |
| Hirotatsu Murano | research scientist | 2019-2020 |
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Publications
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| Chen Z, Wang C, Pignatello JJ. (2024) Rapid and Convenient Potentiometric Method for Determining Fluorosulfate, a Byproduct of the Fumigant and Greenhouse Gas Sulfuryl Fluoride. Acs Omega. 9: 23013-23020 |
| Li Z, Jorn R, Samonte PRV, et al. (2022) Surface-catalyzed hydrolysis by pyrogenic carbonaceous matter and model polymers: An experimental and computational study on functional group and pore characteristics. Applied Catalysis. B, Environmental. 319 |
| Pavlicevic M, Abdelraheem W, Zuverza-Mena N, et al. (2022) Engineered Nanoparticles, Natural Nanoclay and Biochar, as Carriers of Plant-Growth Promoting Bacteria. Nanomaterials (Basel, Switzerland). 12 |
| Sigmund G, Arp HPH, Aumeier BM, et al. (2022) Sorption and Mobility of Charged Organic Compounds: How to Confront and Overcome Limitations in Their Assessment. Environmental Science & Technology |
| Li J, Li Q, Steinberg CEW, et al. (2020) Reaction of Substituted Phenols with Lignin Char: Dual Oxidative and Reductive Pathways Depending on Substituents and Conditions. Environmental Science & Technology |
| Mukome FND, Buelow MC, Shang J, et al. (2020) Biochar amendment as a remediation strategy for surface soils impacted by crude oil. Environmental Pollution (Barking, Essex : 1987). 265: 115006 |
| Wang Z, Bakshi S, Li C, et al. (2020) Modification of pyrogenic carbons for phosphate sorption through binding of a cationic polymer. Journal of Colloid and Interface Science. 579: 258-268 |
| Zhang C, Wu B, Pan B, et al. (2020) Deep removal of arsenite from water with no need for pre-oxidation or in-line oxidation Chemical Engineering Journal. 401: 126046 |
| Cao X, Xiao F, Duan P, et al. (2019) Effects of post-pyrolysis air oxidation on the chemical composition of biomass chars investigated by solid-state nuclear magnetic resonance spectroscopy Carbon. 153: 173-178 |
| Xiao F, Gámiz B, Pignatello JJ. (2018) Adsorption and desorption of nitrous oxide by raw and thermally air-oxidized chars. The Science of the Total Environment. 643: 1436-1445 |