@article{JRC5089,
	address = {},
	year = {1988},
	author = {Restelli G and Ottobrini G},
	abstract = {THE REACTION BETWEEN NO3 AND CH2O WAS STUDIED IN A 450-L GLASS TEFLON           CHAMBER USING INFRARED FT-SPECTROSCOPY AS THE ANALYTICAL TECHNIQUE.  NO3 WAS    OBTAINED IN EQUILIBRIUM WITH N2O5NINTRODUCED FROM EVAPORATION OF THE SOLID PHA- SE INTO THE CELL OR GENERATED IN THE CELL ITSELF BY REACTING NO2 WITH O3.  EX-  PERIMENTS WERE PERFORMED IN BOTH CASES AT 295 +- 2 K AND 740 TORR PRESSURE IN   PURIFIED AIR.  C13H2O WAS USED TO AVOID SPURIOUS EFFECTS ON THE MEASURED CO;    C13O18 WAS INTRODUCED TO ESTIMATE THE OH RADICAL CONCENTRATION IN THE SYSTEMS FRFROM THE BUILD-UP OF THE OXIDATION PRODUCT O16C13O18, C13H2O, C13O16, N2O5,     HNO3, O3, NO2 AND HCOOH TIME-DEPENDENT CONCENTRATIONS WERE MEASURED AND THE DA- TA FITTED ON THE BASIS OF A MODEL INVOLVING 31 REACTIONS WITH THE FACSIMILE COM-PUTER PROGRAMME.  A RATA CONSTANT FOR THE REACTION NO3 + CH2O EQUAL TO (5.4 +-  1.1) X10-16 CM3 MOLEC-1 S-1 AT 295 +- 2 K AND TORR HAS BEEN OBTAINED.  SIGNIFI- CANT DIFFERENCES HAVE BEEN FOUND BETWEEN THE MEASURED CONCENTRATIONS OF OH AND  HCOOH WITH RESPECT TO THOSE PREDICTED BY THE MODEL.  IN THE FRAME OF THIS STU-  DY, THE ABSOLUTE STRENGHT OF THE V6 BAND OF HC12OOH (1045-1135-1) HAS BEEN MEA- SURED TO BE EQUAL TO (3.48 +- 0.5)X10-17 CM1MOLEC-1                             
		},
	title = {Reaction between NO3 and CHO2 in Air. A Determination of the Rate               Constant at 295 +- 2K},
	type = {},
	url = {},
	volume = {92},
	number = {9},
	journal = {Journal of Physical Chemistry},
	pages = {2669-2672},
	issn = {},
	publisher = {},
	doi = {}
}