摘要
The time-of-flight mass spectrum (TOFMS) relative to the resonant two-photon ionization of gas phase p- dichlorobenzene was obtained in the wavelength range of 240 - 250 nm by a home-made system. A special design was made to reduce the effect of memory on the inner wall of the sample inlet system suitable for the investigation of semi-volatile organic compound. In this wavelength range, p-dichlorobenzene molecules firstly absorbed one photon to be excited from the ground state ^1Ag(So) to the first excited state ^1B2u (S1), then absorbed another photon to be ionized. The relationship between the signal intensity of p-dichlorobenzene molecular ion C6H4^35Cl2^+ at 248-nm wavelength and the laser power was given. The 1.52 power index of C6H4^35Cl2^+ was a typical identification of the 3/2 power law. The relationship between the ion signal intensity of C6H4^35Cl2^+ and the sample concentration was close to a linear one in the ppm(V/V) range, which led to a detection limit of 125 ppb(V/V) for p-dichlorobenzene.
The time-of-flight mass spectrum (TOFMS) relative to the resonant two-photon ionization of gas phase p- dichlorobenzene was obtained in the wavelength range of 240 - 250 nm by a home-made system. A special design was made to reduce the effect of memory on the inner wall of the sample inlet system suitable for the investigation of semi-volatile organic compound. In this wavelength range, p-dichlorobenzene molecules firstly absorbed one photon to be excited from the ground state ^1Ag(So) to the first excited state ^1B2u (S1), then absorbed another photon to be ionized. The relationship between the signal intensity of p-dichlorobenzene molecular ion C6H4^35Cl2^+ at 248-nm wavelength and the laser power was given. The 1.52 power index of C6H4^35Cl2^+ was a typical identification of the 3/2 power law. The relationship between the ion signal intensity of C6H4^35Cl2^+ and the sample concentration was close to a linear one in the ppm(V/V) range, which led to a detection limit of 125 ppb(V/V) for p-dichlorobenzene.
基金
the Science and Technology Program of the Education Department of Fujian Province under Grant No.JA07027 and JB07014
