Physical chemistry studies of environmental pollutant transformations: mass spectra analysis

Project Information

computational-chemistry, matlab, particle-physics, programming, scripting
Project Status: Halted
Project Region: CAREERS
Submitted By: Galen Collier
Project Email: khalizov@njit.edu
Project Institution: New Jersey Institute of Technology
Anchor Institution: CR-Rutgers
Project Address: University Heights
Newark, New Jersey. 07102

Mentors: Galen Collier

Project Description

The Khalizov group at New Jersey Institute of Technology studies chemical and physical processes that transform environmental pollutants, such as atmospheric mercury and aerosol nanoparticles (https://centers.njit.edu/krg/). Research activities involve experimentation and modeling, and the group has been providing opportunities for undergraduate and graduate projects not only in experimental, but also in computational fields. Available projects range from using existing software packages for building and testing models of various physical processes to the development and optimization of new algorithms and program codes.

THIS PROJECT: Develop a set of program codes (e.g., using Matlab) to retrieve and analyze the data generated by a chemical ionization mass spectrometer [Qiu et al., 2011; Zheng et al., 2015; Khalizov et al., 2020].

References:

Khalizov, A. F., F. J. Guzman, M. Cooper, N. Mao, J. Antley, and J. Bozzelli, Direct detection of gas-phase mercuric chloride by ion drift - chemical ionization mass spectrometry, Atmos. Environ., 238, 117687, 2020, https://doi.org/10.1016/j.atmosenv.2020.117687.

Qiu, C., L. Wang, V. Lal, A. F. Khalizov, and R. Zhang, Heterogeneous Reactions of Alkylamines with Ammonium Sulfate and Ammonium Bisulfate, Environ. Sci. Technol., 45(11), 4748-4755, 2011, 10.1021/es1043112.

Zheng, J., Y. Ma, M. Chen, Q. Zhang, L. Wang, A. F. Khalizov, L. Yao, Z. Wang, X. Wang, and L. Chen, Measurement of atmospheric amines and ammonia using the high resolution time-of-flight chemical ionization mass spectrometry, Atmos. Environ., 102(0), 249-259, 2015, http://dx.doi.org/10.1016/j.atmosenv.2014.12.002.

Project Information

computational-chemistry, matlab, particle-physics, programming, scripting
Project Status: Halted
Project Region: CAREERS
Submitted By: Galen Collier
Project Email: khalizov@njit.edu
Project Institution: New Jersey Institute of Technology
Anchor Institution: CR-Rutgers
Project Address: University Heights
Newark, New Jersey. 07102

Mentors: Galen Collier

Project Description

The Khalizov group at New Jersey Institute of Technology studies chemical and physical processes that transform environmental pollutants, such as atmospheric mercury and aerosol nanoparticles (https://centers.njit.edu/krg/). Research activities involve experimentation and modeling, and the group has been providing opportunities for undergraduate and graduate projects not only in experimental, but also in computational fields. Available projects range from using existing software packages for building and testing models of various physical processes to the development and optimization of new algorithms and program codes.

THIS PROJECT: Develop a set of program codes (e.g., using Matlab) to retrieve and analyze the data generated by a chemical ionization mass spectrometer [Qiu et al., 2011; Zheng et al., 2015; Khalizov et al., 2020].

References:

Khalizov, A. F., F. J. Guzman, M. Cooper, N. Mao, J. Antley, and J. Bozzelli, Direct detection of gas-phase mercuric chloride by ion drift - chemical ionization mass spectrometry, Atmos. Environ., 238, 117687, 2020, https://doi.org/10.1016/j.atmosenv.2020.117687.

Qiu, C., L. Wang, V. Lal, A. F. Khalizov, and R. Zhang, Heterogeneous Reactions of Alkylamines with Ammonium Sulfate and Ammonium Bisulfate, Environ. Sci. Technol., 45(11), 4748-4755, 2011, 10.1021/es1043112.

Zheng, J., Y. Ma, M. Chen, Q. Zhang, L. Wang, A. F. Khalizov, L. Yao, Z. Wang, X. Wang, and L. Chen, Measurement of atmospheric amines and ammonia using the high resolution time-of-flight chemical ionization mass spectrometry, Atmos. Environ., 102(0), 249-259, 2015, http://dx.doi.org/10.1016/j.atmosenv.2014.12.002.