Grantee Research Project Results
Journal Publications Details for Grant Number R834858
Photochemical and Fungal Transformations of Carbon Nanotubes in the Environment
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Reference Type | Reference Title | Journal | Author | Citation | Progress Report Year | Document Sources |
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Journal Article | Oxidative enzymatic response of white-rot fungi to single-walled carbon nanotubes. | ENVIRONMENTAL POLLUTION | Berry TD, Filley TR, Blanchette RA | Berry TD, Filley TR, Blanchette RA. Oxidative enzymatic response of white-rot fungi to single-walled carbon nanotubes. Environmental Pollution 2014;193:197-204. |
R834858 (Final) |
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Journal Article | Soil microbial response to photo-degraded C-60 fullerenes. | None | Berry TD, Clavijo AP, Zhao Y, Jafvert CT, Turco RF, Filley TR | Berry TD, Clavijo AP, Zhao Y, Jafvert CT, Turco RF, Filley TR. Soil microbial response to photo-degraded C60 fullerenes. Environmental Pollution 2016;211:338-345. |
R834858 (Final) |
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Journal Article | Degradation and Microbial Uptake of C-60 Fullerols in Contrasting Agricultural Soils. | ENVIRONMENTAL SCIENCE & TECHNOLOGY | Berry TD, Filley TR, Clavijo AP, Gray MB, Turco R | Berry TD, Filley TR, Clavijo AP, Gray MB, Turco R. Degradation and microbial uptake of C-60 fullerols in contrasting agricultural soils. Environmental Science & Technology 2017;51(3):1387-1394. |
R834858 (Final) |
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Journal Article | Transformations of oxidized multiwalled carbon nanotubes exposed to UVC (254 nm) irradiation. | ENVIRONMENTAL SCIENCES:NANO | Bitter JL, Yang J,BeigzadahMilani S, Jafvert CT, Fairbrother DH | Bitter JL, Yang J, BeigzadahMilani S, Jafvert CT, Fairbrother DH. Transformations of oxidized multiwalled carbon nanotubes exposed to UVC (254 nm) irradiation. Environmental Science:Nano 2014;1(4):324-337. |
R834858 (Final) |
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Journal Article | The role of surface functionalization in the solar light induced production of reactive oxygen species by single-walled carbon nanotubes in water. | CARBON | Chen C-Y, Jafvert CT | Chen C-Y, Jafvert CT. The role of surface functionalization in the solar light-induced production of reactive oxygen species by single-walled carbon nanotubes in water. Carbon 2011;49(15):5099-5106. |
R834858 (2011) R834858 (Final) |
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Journal Article | A Model of Culex quinquefasciatus Abundance Constructed Using Routine Surveillance and Treatment Data in Tarrant County, Texas | JOURNAL OF THE AMERICAN MOSAUITO CONTROL ASSOCIATION | Dawson D, Salice C, Dacko N, Kurian A | Dawson D, Salice C, Dacko N, Kurian A. A Model of Culex quinquefasciatus Abundance Constructed Using Routine Surveillance and Treatment Data in Tarrant County, Texas. JOURNAL OF THE AMERICAN MOSAUITO CONTROL ASSOCIATION 2019;35(1):1-10 |
R834858 (Final) |
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Journal Article | Photoreactivity of unfunctionalized single-walled carbon nanotubes involving hydroxyl radical: chiral dependency and surface coating effect. | ENVIRONMENTAL SCIENCE & TECHNOLOGY | Hou W-C, BeigzadahMilani S, Jafvert CT, Zepp RG | Hou W-C, BeigzadahMilani S, Jafvert CT, Zepp RG. Photoreactivity of unfunctionalized single-walled carbon nanotubes involving hydroxyl radical: chiral dependency and surface coating effect. Environmental Science & Technology 2014;48(7):3875-3882. |
R834858 (Final) |
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Journal Article | Reactive oxygen species generation and dispersant-dependent electron transfer through single-walled carbon nanotubes in water. | CARBON | Hsieh H-S, Jafvert CT | Hsieh H-S, Jafvert CT. Reactive oxygen species generation and dispersant-dependent electron transfer through single-walled carbon nanotubes in water. Carbon 2015;89:361-371. |
R834858 (Final) |
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Journal Article | Light-independent reactive oxygen species (ROS) formation through electron transfer from carboxylated single-walled carbon nanotubes in water. | ENVIRONMENTAL SCIENCE & TECHNOLOGY | Hsieh H-S, Wu R, Jafvert CT | Hsieh H-S, Wu R, Jafvert CT. Light-independent reactive oxygen species (ROS) formation through electron transfer from carboxylated single-walled carbon nanotubes in water. Environmental Science & Technology 2014;48(19):11330-11336. |
R834858 (Final) |
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Journal Article | Environmental photochemistry of single layered graphene oxide in water. | ENVIRONMENTAL SCIENCE:NANO | Zhao Y, Jafvert CT | Zhao Y, Jafvert CT. Environmental photochemistry of single layered graphene oxide in water. Environmental Science: Nano 2015;2:136-142. |
R834858 (Final) |
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Journal Article | Light-independent redox reactions of graphene oxide in water: Electron transfer from NADH through graphene oxide to molecular oxygen, producing reactive oxygen species | CARBON | Zhao Y, Hsieh H, Wang M, Jafvert C | Zhao Y, Hsieh H, Wang M, Jafvert C. Light-independent redox reactions of graphene oxide in water: Electron transfer from NADH through graphene oxide to molecular oxygen, producing reactive oxygen species. CARBON 2017;123:216-222 |
R834858 (Final) |
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The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.