Add to ORKGOxidation of aqueous bromide into reactive, gas-phase bromine species has been of interest since the 1980’s, when the presence of bromine in the Arctic boundary layer was linked to ozone depletion events. We have investigated two different mechanisms for Br2 release from sea ice. We have shown that nitrate in sea ice can photolyze to produce OH, which can go on to form gas-phase Br2. This reaction is analogous to a known reaction that occurs in the aqueous phase. We have also investigated Br2 production from a heterogeneous reaction between gas-phase ozone and sea ice/seawater. We have determined ozone’s reactive uptake coefficient, and have shown how it varies with temperature, bromide concentration, ozone concentration and acidity. We hav...
In both polar regions tropospheric ozone regularly decreases during springtime to negligible concent...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Oxidation of aqueous bromide into reactive, gas-phase bromine species has been of interest since the...
During springtime in the polar regions, unique photochemistry converts inert halide salt ions (e.g. ...
During springtime in the polar regions, unique photochemistry converts inert halide salt ions (e.g. ...
During springtime in the polar regions, unique photochemistry converts inert halide salt ions (e.g. ...
A possible source of gas phase bromine in the Arctic winter and early spring is the sea‐salt aerosol...
International audienceSudden depletions of tropospheric ozone during spring were reported from the A...
Aqueous phase halogen reactions play an important role in tropospheric ozone depletion that is obser...
International audienceSudden depletions of tropospheric ozone during spring were reported from the A...
Ozone depletion events (ODEs) in the Arctic are primarily controlled by a bromine radical-catalyzed ...
With the return of sunlight in the polar spring, the snowpack serves as an effective source of molec...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Ground-level Arctic ozone depletion events have been studied since the mid-eighties. This process is...
In both polar regions tropospheric ozone regularly decreases during springtime to negligible concent...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Oxidation of aqueous bromide into reactive, gas-phase bromine species has been of interest since the...
During springtime in the polar regions, unique photochemistry converts inert halide salt ions (e.g. ...
During springtime in the polar regions, unique photochemistry converts inert halide salt ions (e.g. ...
During springtime in the polar regions, unique photochemistry converts inert halide salt ions (e.g. ...
A possible source of gas phase bromine in the Arctic winter and early spring is the sea‐salt aerosol...
International audienceSudden depletions of tropospheric ozone during spring were reported from the A...
Aqueous phase halogen reactions play an important role in tropospheric ozone depletion that is obser...
International audienceSudden depletions of tropospheric ozone during spring were reported from the A...
Ozone depletion events (ODEs) in the Arctic are primarily controlled by a bromine radical-catalyzed ...
With the return of sunlight in the polar spring, the snowpack serves as an effective source of molec...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Ground-level Arctic ozone depletion events have been studied since the mid-eighties. This process is...
In both polar regions tropospheric ozone regularly decreases during springtime to negligible concent...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...
Heterogeneous photochemistry converts bromide (Br−) to reactive bromine species (Br atoms and bromin...