Prof. Tianlei Zhang | Atmospheric behavior | Best Researcher Award

Professor at Shaanxi University of Technology, China

Professional Profiles

• Scopus
• Researchgate

Academic and Professional Background

Tianlei Zhang, male, graduated from Shaanxi Normal University in June 2013, majoring in physical chemistry. He has been approved for one youth project (21603132) and one upper-level project (22073059) of the National Natural Science Foundation of China, one project (2019JM-336) of the Natural Science Foundation of Shaanxi Province, and one industrial development project of the Department of Education of Shaanxi Province. In the past five years, he has published 25 SCI research papers in mainstream journals as the first/corresponding author, including 1 SCI Region I TOP paper and 16 SCI Region II papers.

Research and Innovations

Completed/Ongoing Research Projects Eight Citation Index SCI Consultancy/Industry Projects One (the National Natural Science Foundation of China (Nos: 22073059)) Books Published (ISBN) Zero

Areas of Research

Atmospheric behavior Air-water interface Products nucleation Chemical processes Microdynamic mechanisms.

Research Focus

Tianlei Zhang focuses on atmospheric chemistry and its environmental implications, particularly the reactions of Criegee intermediates, sulfur oxides, and other reactive species in both gas phase and at interfaces. His research utilizes theoretical approaches like quantum chemistry and molecular dynamics simulations to elucidate the physicochemical mechanisms and kinetics of these reactions. Zhang’s work aims to understand how various molecules, including water and acids/bases, influence atmospheric reactions, contributing to fields such as air quality, aerosol formation, and climate change. This interdisciplinary research bridges chemistry and environmental science, advancing knowledge on molecular processes affecting the atmosphere.

Publications

1. Atmospheric Chemistry of NH2SO3H in Polluted Areas: An Unexpected Isomerization of NH2SO3H in Acid-Polluted Regions, Publication date: 2023.
2. Enhancing Electrocatalytic Water Oxidation of NiFe-LDH Nanosheets via Bismuth-Induced Electronic Structure Engineering, Publication date: 2023.
3. Screening novel XY1b-based organic dyes by modifying electron-assisted acceptors for dye-sensitised solar cells: a theoretical analysis, Publication date: 2023.
4. First principles studies on the adsorption of rare base-pairs on the surface of B/N atom doped γ-graphyne†, Publication date: 2024.
5. Reaction of SO3 with H2SO4 and Its Implication for Aerosol Particle Formation in the Gas Phase and at the Air-Water Interface, Publication date: 2023.
6. Screening novel candidates of ZL003-based organic dyes for dye-sensitized solar cells by modifying auxiliary electron acceptors: A theoretical study, Publication date: 2024.
7. Controlling the molecular orbital overlap of pyrrolo[1,2-α]quinoxaline-based D-π-A materials via change structural rigidity of donor unit, Publication date: 2024.
8. Molecular mechanisms and atmospheric implications of the simplest criegee intermediate and hydrochloric acid chemistry in the gas phase and at the aqueous interfaces, Publication date: 2024.
9. Screening efficient organic dyes based on ZL001 by modulating its auxiliary electron acceptor for dye-sensitized solar cells: A theoretical perspective, Publication date: 2024.
10. Barrierless reactions of C2 Criegee intermediates with H2SO4 and their implication to oligomers and new particle formation, Publication date: 2025.