Add to ORKGAs the fourth most abundant element by mass in the Earth’s crust, iron is ubiquitous and its chemistry is rich and interdisciplinary in nature. This review synthesizes the current state of knowledge of iron chemistry in multicomponent atmospheric aerosols, which is also applicable to other atmospherically-relevant systems that include iron-containing anthropogenic nanodust, ocean surfaces and buildings. Because of the abundance of humic-like substances (HULIS) in these systems, studies on their chemistry with iron and those used as models for HULIS are the focus of this review. Findings from field measurements and laboratory studies are summarized to highlight major themes in iron chemical reactivity that varies depending on the solubility,...
Experiments to determine the concentration of photochemically available Fe in ambient aerosol sample...
Aerosol iron was examined in Saharan dust plumes using a combination of iron near-edge X-ray absorpt...
Poster abstract A21A-0013 presented at 2011 Fall Meeting, AGU, San Francisco, Calif., 5-9 Dec
Humic-like substances (HULIS) are complex organic molecules that can be found in the atmosphere as c...
Aerosol iron was examined in Saharan dust plumes using a combination of iron near-edge X-ray absorpt...
It has been suggested that iron could play a critical role as a limiting micronutrient in some ocean...
The composition and oxidation state of aerosol iron were examined using synchrotron-based iron near-...
Iron is the most abundant transition metal in the atmosphere and can play a significant role in clou...
International audienceTo understand the impact of dust deposition on ocean primary productivity, the...
none8Iron is the most abundant transition metal in the atmosphere and can play a significant role i...
The Fe(II)/Fe(III)-partition in cloudwater samples collected during two field campaigns is evaluated...
Although there have been a number of studies of the solubility of Fe in marine mineral aerosols, the...
The redox chemistry of Fe in fog and cloudwater has been investigated at coastal and inland location...
Anthropogenic coal fly ash (FA) aerosol may represent a significant source of bioavailable iron in t...
A knowledge of the exact speciation of all oxidation states of transition metals in atmospheric wate...
Experiments to determine the concentration of photochemically available Fe in ambient aerosol sample...
Aerosol iron was examined in Saharan dust plumes using a combination of iron near-edge X-ray absorpt...
Poster abstract A21A-0013 presented at 2011 Fall Meeting, AGU, San Francisco, Calif., 5-9 Dec
Humic-like substances (HULIS) are complex organic molecules that can be found in the atmosphere as c...
Aerosol iron was examined in Saharan dust plumes using a combination of iron near-edge X-ray absorpt...
It has been suggested that iron could play a critical role as a limiting micronutrient in some ocean...
The composition and oxidation state of aerosol iron were examined using synchrotron-based iron near-...
Iron is the most abundant transition metal in the atmosphere and can play a significant role in clou...
International audienceTo understand the impact of dust deposition on ocean primary productivity, the...
none8Iron is the most abundant transition metal in the atmosphere and can play a significant role i...
The Fe(II)/Fe(III)-partition in cloudwater samples collected during two field campaigns is evaluated...
Although there have been a number of studies of the solubility of Fe in marine mineral aerosols, the...
The redox chemistry of Fe in fog and cloudwater has been investigated at coastal and inland location...
Anthropogenic coal fly ash (FA) aerosol may represent a significant source of bioavailable iron in t...
A knowledge of the exact speciation of all oxidation states of transition metals in atmospheric wate...
Experiments to determine the concentration of photochemically available Fe in ambient aerosol sample...
Aerosol iron was examined in Saharan dust plumes using a combination of iron near-edge X-ray absorpt...
Poster abstract A21A-0013 presented at 2011 Fall Meeting, AGU, San Francisco, Calif., 5-9 Dec