International  Center  for  Isotope  Effects  Research

Nanjing University

Three positions open at ICIER

  We at the International Center for Isotope Effects Research (ICIER), Nanjing University, are actively recruiting new faculty members to join our dynamic team. We seek candidates for three distinct positions, each focusing on the exploration and application of isotope effects:

  1. A noble-gas specialist with robust analytical skills. This position offers flexibility, available at the rank of research associate, technical staff (permanent), or tenure-track/tenured professor, contingent upon the candidate's qualifications.

  2. A physical chemist, eligible for appointment at the rank of tenure-track assistant professor.

  3. A molecular physiologist, also eligible for appointment at the rank of tenure-track assistant professor.

ABOUT US

  ICIER is a cross-college and cross-discipline research hub. It is currently based off and growing out of the College of Earth Sciences and Engineering at Nanjing University. All of our faculty members are affiliated with different colleges in Nanjing University, including but not limited to Earth Sciences, Planetary Sciences, Chemistry, Environmental Sciences, Geography and Oceanography, Atmospheric Sciences, Medical School, and Life Sciences. 

 

2023 Workshop on High-Dimensional Isotope Signatures effects was held from August 19th to August 20th.

Sun, Xiang., Jiang, Hao., and Bao, Huiming., 2023, Triple oxygen isotope composition of combustion sulfate: Atmospheric Environment, 314: p. 120095.
Haiyang,W., Yongbo,P., Chao,L., Xiaobin,C., Meng,C and Huiming,B., 2023, Sulfate triple-oxygen-isotope evidence confirming oceanic oxygenation 570 million years ago: Nat Commun 14, 4315. 
Peng, Y., Hattori, S., Zuo, P., Ma, H. & Bao, H. Record of pre-industrial atmospheric sulfate in continental interiors. Nature Geoscience (2023). https://doi.org:10.1038/s41561-023-01211-5
Itahashi, S., Hattori, S., Ito, A., Sadanaga, Y., Yoshida, N. and Matsuki, A.: Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by 17O-Excess Signatures. Environmental Science & Technology, 56, 19, 13634–13643 (2022)