2021-12 至 2023-12, 吉林大学 地球科学学院 鼎新学者博士后

 2024-01 至 今, 吉林大学, 地球科学学院, 讲师

五年内以第一作者或通讯作者在《Energy》、《Fuel Processing Technology》、《Journal of Analytical and Applied Pyrolysis》、《Chemical Geology》、《International Geology Review》、《Journal of Asian Earth Sciences》、《ACS Earth and Space Chem》等行业高质量SCI期刊共公开发表论文15篇。

主要代表作：

He, WT., Sun, YH., Guo, W., Shan, XL. Controlling the in-situ conversion process of oil shale via geochemical methods: A case study on the Fuyu oil shale, China[J]. Fuel Processing Technology, 2021, 219, 106876. (中科院一区，第一作者，IF：7.033，松辽盆地扶余青山口组油页岩热解反应、产物演化与热解反应阶段研究)

He, WT., Sun, YH., Shan, XL. Organic matter evolution in pyrolysis experiments of oil shale under high pressure: Guidance for in situ conversion of oil shale in the Songliao basin[J]. Journal of Analytical and Applied Pyrolysis, 2021, 155, 105091. (中科院二区，第一作者，IF：5.541，松辽盆地油页岩有机质热解产物组成演化与地球化学特征研究)

Li, JH., Shan XL., Song X., He WT.*, Evaluation of the organic matter product of Huadian oil shale during pyrolysis using multiple approaches: Guidance for the in situ conversion of oil shale[J]. Journal of Analytical and Applied Pyrolysis, 2022, 167, 105656 .(中科院二区，通讯作者，IF：6.437，松辽盆地农安嫩江组油页岩有机质热解反应、产物演化与热解反应阶段研究)

Cao, H., He, W.*, Chen, F., Kong, D. Superheavy pyrite in the upper cretaceous mudstone of the Songliao basin, NE China and its implication for paleolimnological environments[J]. Journal of Asian Earth Sciences, 2020, 189, 104156.(中科院二区，通讯作者，IF：3.449，松辽盆地农安嫩江组油页岩地球化学研究)

Cao, H., He, W.*, Chen, F*., Shan, X., Kong, D., Hou, Q., Pu, X. Integrated chemostratigraphy (δ¹³C-δ³⁴S-δ¹⁵N) constrains cretaceous lacustrine anoxic events triggered by marine sulfate input[J]. Chemical Geology, 2021, 559, 119912.(中科院二区，通讯作者，IF：4.015，松辽盆地扶余青山口组油页岩地球化学综合研究)

Cao, H., He, W.* Correlation of carbon isotope stratigraphy and paleoenvironmental conditions in the cretaceous Jehol group, northeastern China[J]. International Geology Review, 2020, 62(1-2), 113-128.(中科院二区，通讯作者，IF：3.958，页岩有机物地球化学演化研究)

He, W., Sun, Y., Shan, X., Cao, H., Li, J.Geochemical characteristics and oil generation potential evaluation of lower cretaceous Xiahuapidianzi formation shale in the southeastern sankeyushu depression, Tonghua basin: Evidence from shale pyrolysis experiments and biomarkers[J]. ACS Earth and Space Chemistry, 2021, 5(3), 409-423.(中科院三区，第一作者，IF：3.475，页岩有机物演化研究)

He, W., Shan, X., Sun, Y., Cao, H., Zheng, S., Su, S., Kang, S. The oil shale formation mechanism of the songliao basin Nenjiang formation triggered by marine transgression and oceanic anoxic events 3[J]. Oil Shale, 2021, 38(2), 89-118.(中科院四区，第一作者，IF：0.934，松辽盆地农安嫩江组油页岩有机物演化研究)

He, W., Sun, Y., Guo, W., Shan, X., Su, S., Zheng, S., Deng, S., Kang, S., & Zhang, X. Organic geochemical characteristics of the upper cretaceous qingshankou formation oil shales in the Fuyu oilfield, songliao basin, china: Implications for oil-generation potential and depositional environment[J]. Energies, 2019, 12(24), 4778.(中科院三区，第一作者，IF：3.004，松辽盆地扶余油页岩有机烃类产物基本性质研究)

He, W., Sun, Y., Shan, X. Geochemical characteristics of the Lower Cretaceous Hengtongshan Formation in the Tonghua Basin, Northeast China: Implications for Depositional Environment and Shale Oil Potential Evaluation[J]. Applied Sciences. 2021, 11, 23.(中科院三区，第一作者，IF：2.679，页岩有机物岩石热解评价研究)

Xu ST,He WT*,et al. .Product migration and regional reaction characteristics in the autothermic pyrolysis in-situ conversion process of low-permeability Huadian oil shale core. Energy, 283, (2023) 128525. (中科院一区，通讯作者，IF：9，热解烃类产物迁移规律与区域反应特征研究)

Xu W,Shan XL,Yi J,Hao GL,Zhao RS, Li JH, He WT*.Evolution of organic carbon isotopes during the pyrolysis of Nongan oil shale in Songliao Basin and its implications for in‑situ conversion project.Geomech. Geophys. Geo-energ. Geo-resour. (2023) 9:65.(中科院二区，通讯作者，IF：5，松辽盆地油页岩有机质热解反应、产物演化与热解反应阶段研究)

Zeng H., He WT.*, Yang, LH., Su, JZ., Meng, XL., Cen, XQ., Guo, W. Evolution of Biomarker Maturity Parameters and Feedback to the Pyrolysis Process for In Situ Conversion of Nongan Oil Shale in Songliao Basin[J]. Energies. 2022, 15, 3715.(中科院四区，通讯作者，IF：3.252，松辽盆地嫩江组油页岩有机质热解反应阶段划分研究)