Ultraviolet absorption cross sections for N2H4 vapor between 191–291 nm and H(2S) quantum yield in 248 nm photodissociation at 296 K

Abstract

The absolute UV absorption cross section of hydrazine vapor at 253.65 nm was determined to be, σ_253.65=(2.859±0.172)×10⁻²⁰ cm² molec⁻¹ (where the error is 1 sigma, precision plus systematic) at 296±2 K. The UV absorbance in a column of slowly flowing N₂H₄/He gas mixture was monitored in an absorption cell, and the eluting hydrazine collected and quantified by titration with standard KIO₃ solution in HCl acid. The relative UV absorbance spectrum of N₂H₄ vapor was recorded from 191–291 nm using a diode‐array spectrometer and normalized to absolute absorption cross sections using the σ_253.65 value. The primary quantum yield of H(²S) formation in 248.3 nm photodissociation of N₂H₄ was measured to be 0.85±0.15 (where the error is 1 sigma, precision plus systematic) at 296±2 K relative to photolysis of CH₃SH under similar experimental conditions. The observed spectrum is essentially continuous and the high H(²S) yield is consistent with unit dissociation to the lowest à ¹A singlet excited state. Kinetics studies also yield a value for the rate coefficient, k₁(296 K)=(1.48±0.22)×10⁻¹³ cm³ molec⁻¹ s⁻¹ for the reaction H+N₂H₄→products; (k₁), where the error is 1 sigma, precision plus systematic.