学术论文发表：

近五年以第一作者或通讯作者身份共发表SCI论文16篇；中科院大区一区论文2篇；中科院大区二区SCI论文7篇（包括1篇中科院小区一区）；总影响因子IFs=65.576；本人ORCID:0000-0002-4536-0101；个人学术H因子为10；2023年7月发表《Energy》，一区top；2021年发表《Fuel Processing Technology》，一区top；其他业内著名期刊《Palaeogeography, Palaeoclimatology, Palaeoecology》（中科院小区一区）,《JAAP》,《CG》,《IGR》,《Geomech. Geophys. Geo-energ. Geo-resour.》,《Journal of Asian Earth Sciences》,《Geobiology》,《ACS Earth and Space Chemistry》等。《天然气与石油》青年编委。

所在科研团队情况：

“低碳-清洁能源富集与二氧化碳储存团队”吉林大学未来科学国际合作联合实验室与“油页岩资源钻采与深部科学钻探技术”吉林大学高层次科技创新团队。

科研项目：

主持科研项目：

“原位热解条件下油页岩地层烃类产物迁移规律及区域反应特性研究” 国自然青基42402167，30万元，负责人；

“惠州 21/27 构造带新生代火山岩成山成储机理及储层刻画技术研究”中海石油（中国）有限公司深圳分公司，92.7万元，负责人；

“梨树北部沙河子组气藏开发潜力评价研究”，中石化东北石油局，65万，主要负责人；

“渤中34-9 油田火成岩侵入影响规律及缝控压裂优化技术研究”中海石油（中国）有限公司天津分公司，100万元，主要负责人。

参与科研项目：

“珠江口盆地深水区中深层物源体系及有效储层发育规律研究”，中海石油（中国）有限公司深圳分公司，310万，主要参与人；

吉林省发改委项目“吉林省扶余千吨级油页岩原位转化示范工程项目”(项目编号：21406084)，2017-2018 ，主要参与人；

吉林省省校共建计划专项项目—新能源专项“油页岩地下原位开采井内加热关键技术研究”，2017.01-2022.01，主要参与人；

国家重点研发计划课题“油页岩原位转化高效加热方法”(项目编号：2019YFA0705502) ，主要参与人等9项科研任务。

代表作（一作或通讯作者）：

Xu ST,He WT*,etal .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)

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)

Cao, H., Hu, L., Wang, Z., He, W*., Chen, F., Hou, Q. & Chen, C. 2023, "Isotopic evidence of environmental changes during the Devonian–Carboniferous transition in South China and its implications for the biotic crisis", Geobiology, vol. 21, no. 5, pp. 592-611. (中科院一区，通讯作者，IF：3.7)

Li, L., Wentong, H*., Zhaojun, L., Yu, S., Yuanji, L., Belousova, E., Lohr, S.C. & George, S.C. 2023, "Volcanic activity drives lacustrine carbon sequestration after Oceanic Anoxic Event 1a", Palaeogeography, palaeoclimatology, palaeoecology, vol. 621, pp. 111595.. (中科院一区，通讯作者，IF：3)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)

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)