Mcelroy and Wofsy extended the work of Rowland
and Molina by showing that bromine atoms were even more effective catalysts for ozone loss than chlorine atoms and argued that the halons, widely used in fire extinguishers, were a potentially large source of stratospheric bromine.
Mcelroy and Wofsy extended the work of Rowland
and Molina by showing that bromine atoms were even more effective catalysts for ozone loss than chlorine atoms and argued that the brominated organic compounds known as halonswidely used in fire extinguishers, were a potentially large source of stratospheric bromine.
Mcelroy and Wofsy extended the work of Rowland
and Molina by showing that bromine atoms were even more effective catalysts for ozone loss than chlorine atoms and argued that the brominated organic compounds known as halons, widely used in fire extinguishers, were a potentially large source of stratospheric bromine.