Hydrogen trioxide (HO3) has long been postulated as a key intermediate in important atmospheric processes but has proved difficult to detect. The molecule was unequivocally detected in experiments based on neutralization-reionization and neutralization-reionization/collisionally activated dissociation mass spectrometry, using protonated ozone (HO3+) as the charged precursor. Hydrogen trioxide is a relatively stable species and has a H-O-O-O connectivity and a lifetime exceeding 10(-6) seconds at ambient temperature.
Experimental detection of hydrogen trioxide / Cacace, Fulvio; DE PETRIS, Giulia; Pepi, Federico; Troiani, Anna. - In: SCIENCE. - ISSN 0036-8075. - STAMPA. - 285:5424(1999), pp. 81-82. [10.1126/science.285.5424.81]
Experimental detection of hydrogen trioxide
CACACE, Fulvio;DE PETRIS, GIULIA;PEPI, Federico;TROIANI, Anna
1999
Abstract
Hydrogen trioxide (HO3) has long been postulated as a key intermediate in important atmospheric processes but has proved difficult to detect. The molecule was unequivocally detected in experiments based on neutralization-reionization and neutralization-reionization/collisionally activated dissociation mass spectrometry, using protonated ozone (HO3+) as the charged precursor. Hydrogen trioxide is a relatively stable species and has a H-O-O-O connectivity and a lifetime exceeding 10(-6) seconds at ambient temperature.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.