Detection of mercuric bromide in a gas phase flow cell by laser photofragment fluorescence spectroscopy

Authors

Xiaomei Tong, New Jersey Institute of Technology
Robert B. Barat, New Jersey Institute of Technology
Arthur T. Poulos, Optomechanical Enterprises, Inc.

Document Type

Article

Publication Date

9-15-1999

Abstract

Photofragment fluorescence (PFF) spectroscopy offers real-time monitoring capability with high-analytical sensitivity and selectivity for volatile mercury compounds found in process gas streams, such as incinerator stacks. In this work, low concentrations (6 ppb to 30 ppm) of mercuric bromide (HgBr2) vapor were introduced into an atmospheric pressure flow cell. The PFF technique used 222 nm laser radiation to photolyze HgBr2 and excite fluorescence from the resulting Hg atoms at 253.7 nm. The fluorescence intensity was linear with laser fluence over the range of 45180 mJ/cm2. Extrapolated detection limits by this method below 1 ppb of HgBr2 in the absence of air are estimated. A linear dynamic detection range up to 0.7 ppm (11 mg/m³) is reported.

Identifier

0033568273 (Scopus)

Publication Title

Environmental Science and Technology

External Full Text Location

https://doi.org/10.1021/es9813461

ISSN

0013936X

First Page

3260

Last Page

3263

Issue

18

Volume

33

Recommended Citation

Tong, Xiaomei; Barat, Robert B.; and Poulos, Arthur T., "Detection of mercuric bromide in a gas phase flow cell by laser photofragment fluorescence spectroscopy" (1999). Faculty Publications. 15934.
https://digitalcommons.njit.edu/fac_pubs/15934