2023

[11] Dongyong Wang, Meijun Li, Jianfa Chen, Hong Xiao, Xianli Zou, Lu Yang, Haochen Chen, Huiqiang Qin. The biological source and paleoenvironment implication of rare short-chain lanostanes in alkaline lacustrine sediments. Organic Geochemistry 2023, 186, 104705.

[10] 任俊豪, 李美俊, 阳孝法, 杨程宇, 马国庆, 黄继新, 钟宁宁. 加拿大麦凯河油砂含油性差异的形成机理. 石油科学通报, 2024, 01: 73-88.

[9] Dongyong Wang, Meijun Li, Yang Zhou, Lu Yang, Yuanfeng Yang, Erting Li, Jun Jin, Xianli Zou, Bodong Xu. Petroleum geochemistry and origin of shallow-buried saline lacustrine oils in the slope zone of the Mahu sag, Junggar Basin, NW China. Petroleum Science 2023.

[8] Sibo Yang, Meijun Li, Yanshan Wang, Hong Xiao, Shuanquan Huang, Wujiang Kang, Fangzheng Wang. Origin, Migration, and Characterization of Gas in the Xinglongtai Area, Liaohe Subbasin(Northeast China): Insight from Geochemical Evidence and Basin Modeling. Energies 2023, 16, 6429.

[7] Bang Zeng, Meijun Li, Yang Shi, Xin Wang, Hao Guo, Junhao Ren, Xi He. Delineation and quantification of effective source rocks using 3D geological modeling in a lacustrine basin [J]. Geoenergy Science and Engineering, 2023, 228: 211955.

[6] Dongyong Wang, Meijun Li, Dingsheng Cheng, Yebo Du, Quan Shi, Xianli Zou, Qingyao Chen. New biodegradation degree proxies based on acids and neutral nitrogen- and oxygen-containing compounds characterized by high resolution mass spectrometry [J]. Fuel, 2023, 347: 128438.

[5] Xin Wang, Meijun Li, Taotao Yang, Bang Zeng, Yang Shi, Xiaoqiang Liu, Youjun Tang. Identification, distribution and geochemical significance of benzo[b]naphthofurans and benzo[b]naphthothiophenes in source rocks from the Beibuwan Basin, South China Sea [J]. Chemical Geology, 2023, 626: 121454.

[4] Meijun Li, Qiuya Han, Xiaoqiang Liu, Jin Xu, Haochen Chen, Yuanyuan Ma. New insights into the pyrolysis of n-tetradecane using ReaxFF molecular dynamics simulations: Implications for understanding the thermal cracking of subsurface crude oil [J]. Energy Exploration & Exploitation, 2023, 41(1): 44-61.

[3] 张剑锋, 肖洪, 李美俊, 王延山, 黄双泉, 徐建斌, 陈喜玲. 冀北—辽西地区中—新元古界古油藏的油气来源及成藏特征[J].地球科学与环境学报,2023,45(01):42-53.

[2] Xiaolin Lu, Meijun Li, Youchuan Li, Yongcai Yang, Ning Wang, Zichao Ran, Ying Fu, Ali Sajjad. Rearranged oleananes in Tertiary oils from the Baiyun Sag, Pearl River Mouth Basin, South China Sea: identification, distribution and geochemical significance [J]. Organic Geochemistry, 2023, 175: 104525.

[1] Qiuya Han, Meijun Li, Xiaoqiang Liu, Hong Xiao, Junhao Ren, Chengbo Guo. A maturation scale for molecular simulation of kerogen thermal degradation [J]. Organic Geochemistry, 2023, 175: 104507.


2022

[11] Chengyu Yang, Meijun Li*, Zhiyong Ni, Tieguan Wang, Nansheng Qiu, Ronghui Fang, Long Wen. Paleo-oil reservoir pyrolysis and gas release in the Yangtze Block imply an alternative mechanism for the Late Permian Crisis [J]. Geoscience Frontiers, 2022, 13(2).

[10] Hong Xiao, Tieguan Wang, Meijun Li*, Dongxia Chen, Jian Chang, Daofu Song, Chengyu Yang, Yingjie Hu, Ali Sajjad. Oil sources and accumulation processes of the Neoproterozoic Luotuoling Formation reservoirs (∼930 Ma) in North China Craton [J]. Journal of Petroleum Science Engineering, 2022, 211: 110186.

[9] Zhili Zhu, Meijun Li*, Jiayang Li, Ling Qi, Xiaoqiang Liu, Hong Xiao, Junying Leng. Identification, distribution and geochemical significance of dinaphthofurans in coals [J]. Organic Geochemistry, 2022, 166: 104399.

[8] Xiaolin Lu, Meijun Li*, Tengqiang Wei, Changjiang Wu, Youjun Tang, Xiaojuan Wang, Haitao Hong, Yuan Liu, Zichao Ran. Composition of light hydrocarbons in Jurassic tight oils in the central Sichan Basin, China: Origin and source rock correlation [J]. Journal of Petroleum Geology, 2022, 45(2): 163-178.

[7] Bang Zeng, Meijun Li*, Xin Wang, Fangzheng Wang, Chenglin Gong, Jin Lai, Yang Shi. Source rock evaluation within a sequence stratigraphic framework of the Palaeogene Liushagang Formation in the Fushan Depression, South China Sea. Geological Journal, 2022.

[6] Xin Wang, Zhenghuan Lu, Meijun Li, Hao Guo, Zhili Zhu, Xiaohan Li, Chengyu Yang, Bang Zeng, Fangzheng Wang, Zichao Ran. Petroleum Charging History of the Paleogene Sandstone Reservoirs in the Huangtong Sag of the Fushan Depression, South China Sea [J]. Energies, 2022, 15(4): 1374.

[5] Fen Yue, Zeqin Chen, Xiaoqiang Liu, Zhiyu Xue, Xue Yang, Meijun Li, Mengmeng He, Ying Xue. CO2 mineralization and CH4 effective recovery in orthoclase slit by molecular simulation [J]. Chemical Engineering Journal, 2022, 430(4), 133056.

[4]  XueYang, Zeqin Chen, Xiaoqiang Liu, Zhiyu Xue, Fen Yue, Junjie Wen, Meijun Li, Ying Xue. Correction of gas adsorption capacity in quartz nanoslit and its application in recovering shale gas resources by CO2 injection: A molecular simulation [J]. Energy, 2022, 240, 122789.

[3] 肖洪, 王铁冠, 李美俊*. 沉积物和原油中重排藿烷的生物来源和成因机制 [J]. 地球科学, 2022.

[2] 肖洪, 李美俊*, 王铁冠, 冷筠滢. 中元古界沉积物中典型分子标志化合物及其地质意义——以宣隆坳陷下马岭组黑色页岩为例 [J]. 沉积学报, 2022.

[1] 朱志立, 李美俊*, 李佳阳, 祁灵, 刘晓强, 韩秋雅, 路清华, 马媛媛, 冷筠滢. 沉积有机质中苯基菲成熟度参数及其化学机理——基于地球化学数据和量子化学计算[J]. 沉积学报, 2022.


2021

[11] Chen Peng, Xian Benzhong, Li Meijun, Liang Xiaowei, Wu Qianran, Zhang Wenmiao, Wang Junhui, Wang Zhen, Liu Jianping, A giant lacustrine flood‐related turbidite system in the Triassic Ordos Basin, China: Sedimentary processes and depositional architecture. Sedimentology, 2021.

[10] Huang Yahao, Tang Youjun, Li Meijun, Hong Haitao, Wu Changjiang, Zhang Jizhen, Lu Xiaolin, Yang Xiaoyong. Quantitative evaluation of geological fluid evolution and accumulated mechanism: in case of tight sandstone gas field in central Sichuan Basin. Petroleum Science, 2021, 18(2): 416-429.

[9] Lu Xiaolin, Li Meijun*, Wang Xiaojuan, Wei Tengqiang, Tang Youjun, Hong Haitao, Wu Changjiang, Yang Xiaoyong, Liu Yuan, Distribution and Geochemical Significance of Rearranged Hopanes in Jurassic Source Rocks and Related Oils in the Center of the Sichuan Basin, China. ACS Omega, 2021, 6(21): 13588-13600.

[8] Tang Youjun, Li Meijun*, Fang Ronghui, Zhang Baoshou, Yang Zhe, He Daxiang, Li Mengru. Geochemistry and origin of Ordovician oils in the Rewapu Block of the Halahatang Oilfield (NW China).Petroleum Science, 2021, 16(1): 1-13.

[7] Wang Ning, Wen Long, Li Meijun*, Dai Xin, Xu Yaohui, Ming Ying, Yang Shuai. The origin of abnormally C-13-depleted organic carbon isotope signatures in the early Cambrian Yangtze Platform. Marine and Petroleum Geology, 2021, 128(1).

[6] Wang Wenqiang, Wang Tieguan, Li Meijun*, Mao Fengjun, Liu Jiguo, Xiao Hong, Lai Hongfei, Ai Xinyu. The origins of biodegraded oils in sandstone reservoirs in the Termit Basin. Journal of Petroleum Science and Engineering, 2021, 207: 109130.

[5] Wang Xin, Li Meijun*, Fang Ronghui, Lai Hongfei, Lu Xiaolin, Liu Xiaoqiang. The distributions and geochemical implications of methylated 2-methyl-2-(4,8,12-trimethyltridecyl) chromans in immature sediments. Energy Exploration & Exploitation, 2021.

[4] Xiao Hong, Li Meijun*, Wang Tieguan, You Bing, Leng Junying, Han Qiuya, Ran Zichao, Wang Xin, Gao Zhiwei. Four series of rearranged hopanes in the Mesoproterozoic sediments. Chemical Geology, 2021, 573.

[3] Xiao Hong, Wang Tieguan, Li Meijun*, Cheng Dingsheng, Yang Zhe. Organic geochemical heterogeneity of the Cretaceous Abu Gabra Formation and reassessment of oil sources in the Sufyan sub-basin, Sudan[J]. Organic Geochemistry, 2021, 162, 104301.

[2] Xiao Hong, Wang Tieguan, Li Meijun*, You Bing, Zhu Zhili. Extended series of tricyclic terpanes in the Mesoproterozoic sediments. Organic Geochemistry, 2021, 156(2).

[1] Zeng Bang, Li Meijun*, Zhu Jieqiong, Wang Xin, Shi Yang, Zhu Zhili, Guo Hao, Wang Fangzheng, Selective methods of TOC content estimation for organic-rich interbedded mudstone source rocks. Journal of Natural Gas Science and Engineering, 2021, 93(5).


2020

[10] Fu Jian, Chen Cong, Li Meijun*, Zhang Zhongtao, Long Zulie, Wang Tieguan, Lu Xiaolin. Petroleum charging history of Neogene reservoir in the Baiyun Sag, Pearl River Mouth Basin, South China sea. Journal of Petroleum Science and Engineering, 2020, 190.

[9] Han Qiuya, Li Meijun*, Liu Xiaoqiang, Jiang Weidong, Shi Shengbao, Tang Youjun, He Daxiang. Fractionation of alkylated carbazoles in petroleum during subsurface migration: Evidence from molecular simulation and application in sandstone reservoirs. Journal of Petroleum Science and Engineering, 2020, 191.

[8] Lai Hongfei, Li Meijun*, Mao Fengjun, Liu Jiguo, Xiao Hong, Tang Youjun, Shi Shengbao. Source rock types, distribution and their hydrocarbon generative potential within the Paleogene Sokor-1 and LV formations in Termit Basin, Niger. Energy Exploration & Exploitation, 2020, 38(6): 2143-2168.

[7] Liu Xiaoqiang, Li Meijun*, Zhang Chenghua, Fang Ronghui, Zhong Ningning, Xue Ying, Zhou Yang, Jiang Weidong, Chen Xuyang. Mechanistic insight into the optimal recovery efficiency of CBM in sub-bituminous coal through molecular simulation. Fuel, 2020, 126.

[6] Tang Youjun, Zhang Jizhen, Li Meijun, Liu Yan, Li Mengru, Sun Peng. Origin of crude oils from the paleogene Xingouzui formation in the Jiangling depression of Jianghan basin, central China. Journal of Petroleum Science and Engineering, 2020, 195.

[5] Tang Youjun, Liu Bin, Li Meijun, Wu Yue, Huang Jian, Zhao Shaoqing, Sun Yang. Origin of Devonian mafic magmatism in the East Kunlun orogenic belt, northern Tibetan Plateau: implications for continental exhumation. Geological Magazine, 2020, 157(8): 1265-1280.

[4] Wang Ning, Li Meijun*, Tian Xingwang, Hong Haitao, Wen Long, Wang Wenzhi. Climate-ocean control on the depositional watermass conditions and organic matter enrichment in lower cambrian black shale in the upper Yangtze Platform. Marine and Petroleum Geology, 2020, 120.

[3] 刘晓强, 李美俊*, 唐友军, 朱志立, 祁灵, 师生宝, 冷筠滢, 韩秋雅, 肖洪. 有机质中三联苯成熟度参数及其化学机理:基于地球化学数据和量子化学计算[J]. 地球化学,2020,49(02):218-226.

[2] 杨程宇, 文龙, 王铁冠, 罗冰, 李美俊, 田兴旺, 倪智勇. 川中隆起安岳气田古油藏成藏时间厘定[J]. 石油与天然气地质,2020,41(03):492-502.

[1] 胡锦杰, 唐友军, 何大祥, 傅宁, 李美俊. 不同类型烃源岩排烃模式对比及差异性探究[J]. 地质力学学报,2020,26(06):941-951.


2019

[11] Tang Youjun, Li Meijun*, Zhu Qiuge, He Daxiang, Jiang Xingchao, Xiao, Hong, Shan Junfeng, Kang Wujiang, Leng Junying, Wang Wenqiang. Geochemical characteristics and origin of hydrocarbons in the Mesoproterozoic reservoirs in the Liaoxi Depression, NE China. Energy Exploration & Exploitation, 2019, 38(2): 333-347.

[10] Wang Ning, Li Meijun*, Hong Haitao, Song Daofu, Tian Xingwang, Liu Peng, Fang Ronghui, Chen Guo, Wang Maolin, Biological sources of sedimentary organic matter in Neoproterozoic–Lower Cambrian shales in the Sichuan Basin (SW China): Evidence from biomarkers and microfossils, Palaeogeography, Palaeoclimatology, Palaeoecology, 2019, 516, 342-353.

[9] Wang Ning, Li Meijun*, Liu Xiaoqiang, Hong Haitao, Tian Xingwang, Yang Chengyu, Shi Shengbao, Liu Peng. Geo-chromatographic fractionation effect of methyldibenzofuran in dolomite reservoirs and its application in tracing oil filling pathways in the Sichuan Basin, Marine and Petroleum Geology, 2020, 113.

[8] Wang Ning, Li Meijun*, Tian Xingwang, Hong Haitao, Liu Peng, Chen Guo, Wang, Maolin. Main factors controlling the organic matter enrichment in the Lower Cambrian sediments of the Sichuan Basin, SW China, Geological Journal, 2019, 55(4): 3083-3096.

[7] Xiao Hong, Wang T.-G., Li Meijun*, Lai Hongfei, Liu Jiguo, Mao Fengjun, Tang Youjun,Geochemical characteristics of Cretaceous Yogou Formation source rocks and oil-source correlation within a sequence stratigraphic framework in the Termit Basin, Niger,Journal of Petroleum Science and Engineering, 2019, 172,360-372.

[6] Xiao Hong, Li Meijun*, Liu Jiguo, Mao Fengjun, Cheng Dingsheng, Yang Zhe, Oil-oil and oil-source rock correlations in the Muglad Basin, Sudan and South Sudan: New insights from molecular markers analyses, Marine and Petroleum Geology, 2019, 103, 351-365.

[5] Xiao Hong, Li Meijun*, Wang Wenqiang, You Bing, Liu Xiaoqiang, Yang Zhe, Liu Jiguo, Chen Qingyao, Uwiringiyimana Martin. Identification, distribution and geochemical significance of four rearranged hopane series in crude oil. Organic Geochemistry, 2019, 138.

[4] Yang Sibo, Li Meijun*, Liu Xiaoqiang, Han Qiuya, Wu Jia, Zhong Ningning, Thermodynamic stability of methyldibenzothiophenes in sedimentary rock extracts: Based on molecular simulation and geochemical data, Organic Geochemistry, 2019, 129, 24-41.

[3] Yang Zhe, Li Meijun*, Cheng Dingsheng, Xiao Hong, Lai Hongfei, Chen Qingyao, Geochemistry and possible origins of biodegraded oils in the Cretaceous reservoir of the Muglad Basin and their application in hydrocarbon exploration, Journal of Petroleum Science and Engineering, 2019, 173, 889-898.

[2] Zhu Zhili, Li Meijun*, Tang Youjun, Qi Ling, Leng Junying, Liu Xiaoqiang, Xiao, Hong. Identification of phenyldibenzothiophenes in coals and the effects of thermal maturity on their distributions based on geochemical data and theoretical calculations. Organic Geochemistry, 2019, 138.

[1] 李美俊*, 张忠涛, 陈聪, 杨程宇, 卢晓林, 付健, 代金慧, 唐友军. 珠江口盆地白云凹陷储层沥青成因及其对油藏调整改造的启示. 石油与天然气地质,2019,40(01):133-141.


2018

[8] Lai Hongfei, Li Meijun*, Liu Jiguo, Mao Fengjun, Xiao Hong, He Wenxiang, Yang Lu. Organic geochemical characteristics and depositional models of Upper Cretaceous marine source rocks in the Termit Basin, Niger. Palaeogeography, Palaeoclimatology, Palaeoecology, 2018, 495: 292-308.

[7] Li Meijun*, Wang Tieguan, Xiao Zhongyao, Fang Ronghui, Ni Zhiyong, Deng Weilong, Tang Youjun, Zhang Chunming, Yang Lu. Practical application of reservoir geochemistry in petroleum exploration: a case study from a Paleozoic carbonate reservoir in the Tarim Basin (NW China). Energy & Fuels, 2018, 32(2): 1230–1241.

[6] Li Meijun*, Liu Xiaoqiang, Wang Tieguan, Jiang Weidong, Fang Ronghui, Yang Lu, Tang Youjun. Fractionation of dibenzofurans during subsurface petroleum migration: Based on molecular dynamics simulation and reservoir geochemistry. Organic Geochemistry, 2018, 115: 220-232.

[5] Yang Chengyu, Ni Zhiyong, Li Meijun*, Wang Tieguan, Chen Zhonghong, Hong Haitao, Tian Xingwang. Pyrobitumen in South China: Organic petrology, chemical composition and geological significance. International Journal of Coal Geology, 2018, 188: 51-63.

[4] Xiao Hong, Wang Tieguan, Li Meijun*, Fu Jjian, Tang Youjun, Shi Shengbao, Yang Zhe, Lu Xiaolin. Occurrence and Distribution of Unusual Tri- and Tetracyclic Terpanes and Their Geochemical Significance in Some Paleogene Oils from China. Energy & Fuels, 2018, 32(7): 7393-7403.

[3]李美俊*, 赖洪飞, 毛凤军, 刘计国, 肖洪, 唐友军. 层序地层格架下烃源岩地球化学研究:以尼日尔Termit盆地为例.地球科学,2018,43(10):3603-3615

[2]赖洪飞, 李美俊*, 刘计国, 毛凤军, 杨禄, 杨程宇, 肖洪. 强制海退体系域中烃源岩的类型与测井评价——以尼日尔Termit盆地为例. 沉积学报,2018,36(02):390-400.

[1]杨思博, 赖洪飞, 李美俊*, 杨禄, 王辉. 湖相烃源岩有机质甲基菲指数及甲基菲比值与成熟度关系. 长江大学学报(自科版),2018,15(19):12-17+85-86.


2017

[3] Yang Lu, Li Meijun*, Wang Tieguan, Liu Xiaoqiang, Jiang Weidong, Fang Ronghui, Lai Hongfei. Phenyldibenzofurans and methyldibenzofurans in source rocks and crude oils, and their implications for maturity and depositional environment. Energy & Fuels, 2017, 31: 2513-2523.

[2] Fang Ronghui, Li Meijun*, LüHaitao, Wang Tieguan, Yuan Yuan, Liu Yongli, Ni Zhiyong, Oil charging history and pathways of the Ordovician carbonate reservoir in the Tuoputai region, Tarim Basin, NW China. Petroleum Science, 2017, 14(4): 662-675.

[1] 杨禄, 李美俊*, 刘晓强, 蒋维东, 杨程宇, 赖洪飞, 亢品. 甲基二苯并噻吩的吸附性及油藏充注途径示踪机理之Connolly分子表面计算证明.地球化学,2017,46(04):367-372.


2016

[9] Li Meijun*, Wang Hui, Shi Shengbao, Fang Ronghui, Tang Qi, Wang Daowei.  The occurrence and distribution of phenylnaphthalenes, terphenyls and quaterphenyls in selected lacustrine shales and related oils in China. Organic Geochemistry, 2016, 95, 55-70.

[8] Li Meijun*, Wang Tieguan, Li Hongbo, Fang Ronghui, Yang Lu, Shi Shengbao, Kuang Jiang. The occurrence and geochemical significance of phenylnaphthalenes and terphenyls in oils and condensates from the Yakela Faulted-Uplift, Tarim Basin (China). Energy & Fuels, 2016, 30 (6),4457–4466.

[7] Fang Ronghui, Wang Tieguan, Li Meijun*, Xiao Zhongyao, Zhang Baoshou, Huang Shaoying, Shi Shengbao, Wang Daowei, Deng Weilong. Dibenzothiophenes and benzonaphthothiophenes: Molecular markers for tracing oil filling pathways in the carbonate reservoir of the Tarim Basin, NW China. Organic Geochemistry, 2016, 91, 68-80.

[6] Xiao Zhongyao, Li Meijun*, Huang Shaoying, Wang Tieguan, Zhang Baoshou, Fang Ronghui, Zhang Ke, Ni Zhiyong, Zhao Qing, Wang Daowei. Source, oil charging history and filling pathways of the Ordovician carbonate reservoir in the Halahatang Oilfield, Tarim Basin, NW China. Marine and Petroleum Geology, 2016, 73, 59-71.

[5] Huang Shaoying, Li Meijun*, Zhang Ke, Wang Tieguan, Xiao Zhongyao, Fang Ronghui, Zhang Baoshou, Wang Daowei, Zhao Qing, Yang Fulin. The distribution and geochemical significance of phenylphenanthrenes and their isomers in selected oils and rock extracts from the Tarim Basin, NW China. Petroleum Science, 2016.

[4] Yang Lu, Li Meijun*, Wang Tieguan, Shi Yang. Dibenzothiophenes and benzonaphthothiophenes in oils, and their application in identifying oil filling pathways in Eocene lacustrine clastic reservoirs in the Beibuwan Basin, South China Sea. Journal of Petroleum Science & Engineering, 2016, 146:1026-1036.

[3] 杨程宇, 李美俊*, 倪智勇, 杨福林, 陈昊卫. 塔里木盆地西北缘玉尔吐斯组硅质岩成因及石油地质意义. 沉积学报, 2016, 34(4):653-661.

[2] 张宝收, 李美俊*, 赵青, 王铁冠, 张科, 肖中尧, 黄少英. 原油中C26-C28三芳甾烷相对含量计算方法及其应用. 石油实验地质, 2016, 38(5):692-697.

[1] 杨禄, 李美俊*, 张春明. 生物降解作用对大宛齐油田库车组原油轻烃参数的影响. 高校地质学报, 2016, 22(3):549-554.


2015

[5] Li Meijun *, Geoffrey S. Ellis. Qualitative and quantitative analysis of dibenzofuran, alkyldibenzofurans, and benzo[b]naphthofurans in crude oils and source rock extracts, Energy & Fuels, 2015, 29 (3), pp 1421–1430.

[4] Fang Ronghui, Li Meijun*, Wang Tieguan, Zhang Liwen, Shi Shengbao, Identification and distribution of pyrene, methylpyrenes and their isomers in rock extracts and crude oils. Organic Geochemistry, 2015, 83–84, 65-76.

[3] 李美俊*, 王铁冠. 油藏地球化学在勘探中的研究进展及应用:以北部湾盆地福山凹陷为例. 地学前缘, 2015, 01, 215-222.

[2] 李美俊*, 王铁冠, 张卫彪. 塔河油田奥陶系原油C26降胆甾烷分布特征及地质意义. 石油实验地质, 2015, 37(1), 64-70, 79.

[1] 唐琪, 李美俊*. 海相页岩有机质甲基菲指数与成熟度关系甲基菲,油气地质与采收率,2015, 22(3): 62-66.


2014年及以前

[8] Li Meijun*, Wang Tieguan, Shi Shengbao, Liu Keyu, Ellis Geoffrey. Benzo[b]naphthothiophenes and alky dibenzothiophenes: molecular tracers for oil migration distances. Marine and Petroleum Geology, 2014, 57, 403-417

[7] Li Meijun*, Wang Tieguan, Shi Shengbao, Zhu Lei, Fang Ronghui. The oil maturity assessment by maturity indicators based on methylated dibenzothiophenes. Petroleum Science, 2014/6, 11(2), 234-246.

[6] LiMeijun*, Zhong Ningning, Shi Shengbao, Zhu Lei, Tang Youjun. The origin of trimethyldibenzothiophenes and their application as maturity indictors in sediments from the Liaohe Basin, East China. Fuel, 2013, 103, 299-307.

[5] Li Meijun*, Simoneit B.R.T., Zhong Ningning, Fang Ronghui, The distribution and origin of dimethyldibenzothiophenes in sediment extracts from the Liaohe Basin, East China. Organic Geochemistry, 2013, 65, 63-73.

[4] Li Meijun*, Wang Tieguan, Zhong Ningning, Zhang Weibiao, Akbar Sadik, Li Hongbo. Ternary diagram of fluorenes, dibenzothiophenes and dibenzofurans: Indicating depositional environment of crude oil source rocks. Energy, Exploration & Exploitation, 2013, 31(4), 569-588.

[3] 李美俊*, 师生宝, 王铁冠, 方镕慧, 朱雷. 石油和沉积有机质中C3-、C4-烷基取代二苯并噻吩的鉴定. 地球化学, 2014/03, 43(2): 157-165.

[2] 李美俊, 师生宝, 王铁冠, 张利文, 杨福林. 应用石油中三芴系列判识沉积环境的几个问题. 地球科学前沿, 2013, 3(1): 22-28.

[1] 师生宝*, 李美俊,朱雷. 石油和沉积有机质中C1和C2-烷基取代二苯并噻吩的分布和鉴定. 石油实验地质, 2014/09, 36(5): 612-617.


发明专利

[3]李美俊, 谢然红, 张慧, 王跃祥. 一种油气充注成藏途径的示踪方法及装置[P]. 北京:CN104153765A,2014-11-19.

[2]付健, 李美俊, 刘雨晨, 陈聪, 刘正. 一种利用有效介质理论评价泥岩总有机碳含量的方法[P]. 黑龙江省:CN111415713A,2020-07-14.

[1]方镕慧, 张聪, 王向华, 卢晓林, 刘晓晨, 白名岗, 李美俊, 王梓. 用于天然气井口采样和测试阶段的尾气处理装置[P]. 北京市:CN211462711U,2020-09-11.


科技奖励

[3]《层序格架下烃源岩评价与成藏关键技术及规模应用》,中国石油和化工自动化行业科学技术奖,科技进步一等奖,2020 年

[2]《地质体中分子标志物的新发现及其应用》,教育部高等学校科学研究优秀成果奖,自然科学奖二等奖,2018 年

[1]《油气成因、油藏充注路径方法研究及在福山凹陷等地区勘探中的应用》, 中国石油和化学工业联合会, 科技进步奖二等奖,2014 年


专著

[1]刘计国, 李美俊, 毛凤军. 中西非裂谷系Termit盆地油藏地球化学[M]. 石油工业出版社:, 202009.