邱楠生,男,福建连城县人,1968年7月生,教授,博士生导师,国家杰出青年基金获得者,教育部长江学者特聘教授。1989年淮南矿业学院(现安徽理工大学)本科毕业,1991年于中国矿业大学北京研究生部获煤田地质学硕士学位,1994年于中国科学院地质研究所获构造地质学博士学位。1998.10~1999.4在美国Oklahoma State University做访问学者。1994年7月至今在中国石油大学(北京)地球科学学院盆地与油藏研究中心从事教学与科研工作,曾任盆地与油藏研究中心主任、地球科学学院院长、院学术委员会主任。研究方向为沉积盆地温压场、盆地构造~热演化和油气成藏机理、地热资源评价。发表SCI收录论文130篇(其中第一/通讯作者90篇),出版教材/专著5部。获得教育部自然科学一等奖等省部级一等奖5项,2003年获得青年地质科技奖、2005年入选教育部“新世纪优秀人才支持计划”,2011年获国家杰出青年科学基金资助,2013年入选教育部“长江学者特聘教授”,2014年获第七届黄汲清青年地质科学技术奖,2016年入选科技北京百名领军人才培养工程。
办公电话:010-89733340, 手机:13910633594,Email:qiunsh@cup.edu.cn
1、研究领域
(1)沉积盆地温压场,(2)地热资源评价,(3)沉积盆地热体制和热历史,(4)油气成藏机理
2、学术兼职
(1) 油气资源与工程全国重点实验室副主任
(2) 中国地质学会构造地质学与地球动力学专业委员会副主任
(3) 中国地质学会同位素地质专业委员会委员
(4) 中国地球物理学会地热专业委员会委员
(5) 中国矿物岩石地球化学学会包裹体专业委员会委员
(6) 《地质学报》副主编,《China Geology》副主编,《地学前缘》、《石油学报》、《Petroleum Science》、《石油科学通报》和《地球科学与环境学报》编委
3、讲授的主要课程
(1) 《沉积盆地温压场》(1995年-),研究生课程
(2) 《地热学基础》(2017年-),研究生课程
(3) 《科技论文写作》(2012年-),本科生课程
(4) 《地热资源勘查》(2018年-),本科生课程
(5) 《地质过程定量模拟》(2003-2011年),研究生课程
4、获奖和荣誉情况
(1) 北京市2022年度自然科学二等奖《海相沉积盆地温度场研究》,排名第1;
(2) 中国石油和化学工业联合会2020年科技进步二等奖《中国典型海相盆地温压场特征与油气成藏及勘探应用成效》,排名第1;
(3) 教育部2014年度科技进步一等奖《陆相断陷盆地流体活动与油气成藏》,排名第3;
(4) 2014年中国产学研合作创新成果奖《渤海湾地区油气形成富集与分布预测》, 排名第5;
(5) 北京市2011年度科技进步一等奖《油气临界成藏理论、评价方法与重大勘探成效》,排名第3;
(6) 教育部2006年度自然科学一等奖《中国主要含油气盆地热体制、热历史及其在油气成藏过程中的作用》,排名第1;
(7) 教育部2005年度科技进步一等奖《济阳坳陷下第三系油气运聚成藏与挖潜勘探》,排名第8;
(8) CNPC2002年度技术创新一等奖:《大中型油气田成藏定量模式研究》,排名第11;
(9) 中国产学研合作创新奖-个人(2020年)
(10) 北京市百名领军人才培养工程(2016年)
(11) 第七届黄汲清青年地质科学技术奖—科技研究者奖(2014年);
(12) 教育部长江学者特聘教授(2013年);
(13) 教育部新世纪优秀人才支持计划(2005年);
(14) 第九届中国青年地质科技奖—银锤奖(2003年);
5、在研主要科研项目
(1) 国家重点研发项目“中国东部深层高温地热的形成机制、分布特征和资源评价”(2022-2026)
(2) 国家重点研发项目课题“中国东部挽近时期热体制与深层高温地热聚集模式”(2022-2026)
(3) 国家自然科学基金重点项目“四川盆地构造-热演化及其对震旦-寒武系天然气成藏的约束”(2019-2023)
(4) 国家自然科学基金企业创新发展联合基金项目“深层油气藏赋存相态和转化机理研究”子课题(2020-2024)
(5) 国家自然科学基金地质联合基金项目“中扬子古隆起周缘震旦-寒武系页岩气源储耦合演化及保存机理”子课题(2023-2026)
(6) 黑龙江省揭榜挂帅科技攻关项目“古龙页岩油古温压场特征及其对页岩油成藏作用研究”(2021-2024)
(7) 中海油深圳分公司十四五外协项目“珠江口盆地深水区油气高效运聚机理与成藏差异性研究”(2022-2025)
6、已完成的主要科研项目
(1) 国家自然科学基金项目
面上项目“沉积盆地中微量元素抑制或催化有机质成熟的机理” (2004-2004)
面上项目“有机质自由基热演化的时间-温度效应机制研究”(2005-2007)
面上项目“塔里木盆地西北缘构造-热演化的低温热年代学约束”(2011-2013)
重点项目“华北克拉通破坏的地热学响应-来自沉积盆地热历史的约束”(2012-2015)
杰出青年科学基金项目“石油与天然气地质学”(2012-2015)
重大项目子课题“页岩气改造-散失途径与保存条件”(2017-2021)
(2) 国家油气重大专项/国家重点研发项目
国家油气重大专项“典型大型气田形成的温压场研究”专题(2009 -2015)
国家油气重大专项“准噶尔盆地准中地区油气成藏动力研究”专题(2011-2015)
国家重点研发计划“超深层环境油气生成与烃源灶有效性评”课题之子专题(2018-2021)
(3) 国家“973”、“863”项目
国家“863”项目“天然气水合物成藏条件实验模拟技术”(2006-2010)
国家“973”项目“中国西部叠合盆地多期构造过程叠加与深部古温压场重建”课题之子专题(2011-2015)
国家“973”项目“构造热演化与页岩气的改造和保存”课题之子专题(2012-2016)
(4) 省部级项目
中石油“九五”项目三级课题“柴达木盆地温压场研究”(1996-1998)
中石油创新基金“深部热力系熵与流体输运热动力学机制研究(CX2000-05)”(2000-2002)
中石化“十五”重大基础研究项目“八面河油田成藏组合模式研究”(2000-2003)
教育部重点基金“沉积盆地古生代碳酸盐岩地区古地温恢复方法探索”(2003-2005)
中石化“十五”重大项目“郯庐断裂中段两侧盆地烃源岩分布及演化规律研究”(2003-2005)
中石油创新基金“沉积盆地有机质镜质体反射率异常的有机-无机作用成因机理” (2003-2005)
中石化西指项目“准噶尔盆地有效烃源岩分布特征、演化历史和油源贡献” (2004-2007)
教育部新世纪优秀人才支持计划项目“我国碳酸盐岩地区有机质高-过成熟的热演化历史及古地温恢复方法探”(2006-2008)
中海油重大项目“渤海湾地区优质烃源岩分布预测与油气资源定量评价”(2006-2010)
中石化海相前瞻性项目“中国陆域海相沉积盆地烃源岩成熟度与生烃期次”(2007-2010)
教育部重大项目“中国典型海相沉积盆地热动力学与油气成藏”(2008-2011)
(5) 其他项目/横向项目
塔里木油田公司合作研究项目“塔里木盆地主要地质时期温压系统恢复及地层水研究”(2020-2021)
中石化油气成藏重点实验室开放基金“有机质热演化的时间-温度效应机制研究”(2012-2013)
中石化油气成藏重点实验室开放基金“南方志留系龙马溪页岩成熟度表征方法和过程研究”(2014-2015)
中石油杭州地质研究院项目“四川盆地震旦~古生界深层碳酸盐岩温压场研究”(2015-2016)
华北油田校企合作项目“冀中坳陷重点潜山带油气成藏动力与优势运移方向”(2015-2016)
华北油田校企合作项目“冀中坳陷重点潜山及内幕油气演化与成藏机理研究”(2018-2019)
中石化西部研究中心项目“塔里木盆地典型地区特深层温压场研究”(2018-2019)
中石化西北油田公司项目“顺北地区奥陶系不同断裂带油气成藏差异及主控因素研究”(2018-2019)
中石化油气成藏重点实验室开放基金“川东丁山地区构造-热演化研究:来自低温热年代学和构造物理模拟的约束”(2018-2019)
西南油气田公司合作项目“四川盆地构造演化及其对天然气成藏的控制”(2020-2021)
7、发表的主要论著
(1) 教材和专著:
邱楠生,胡圣标,何丽娟.沉积盆地地热学.中国石油大学出版社,2019.
邱楠生,胡圣标和何丽娟,沉积盆地热体制研究的理论和应用.石油工业出版社,2004.
庞雄奇,邱楠生,姜振学. 油气成藏过程定量模拟.石油工业出版社. 2005.
(2) 论文:
Wang B, Qiu N S*; Ralf L, Sebastian A, Liu Z D. Petroleum system modelling in a compressional tectonic setting: The eastern Kuqa Depression, Tarim Basin, Northwestern China. Journal of Asian Earth Sciences,2023,249:105612.
Feng Q Q, Qiu N S* , Tenger B, et al., Effect of tectonic reworking on shale fracturing and gas preservation in the upper Yangtze block, south China. Marine and Petroleum Geology, 2023, 148:106069.
Qiu N S, Chang J, Zhu C Q, et al., Thermal regime of sedimentary basins in the Tarim, Upper Yangtze and North China Cratons, China. Earth-Science Reviews, 2022,224:103884.
Feng Q Q, Qiu N S*, Borjigin Tenger, et al., Tectono-thermal evolution constrained by thermo-kinematic and its effect on shale gas preservation. Energy, 2022, 240, 122781.
Liu X Y, Qiu N S*, Nina Sø������ager, et al., Geochemistry of Late Permian basalts from boreholes in the Sichuan Basin, SW China: Implications for an extension of the Emeishan large igneous province. Chemical Geology, 2022,588,120636.
常健,张应鳞,邱楠生*,李晨星.基于碎屑锆石形态学和热年代学性质解析天山隆升过程. 中国科学:地球科学,2022, 52(4):747-759.
Wang B, Qiu N S*, Sebastian A, Duan Y J, Littke Ralf. Modelling of pore pressure evolution in a compressional tectonic setting: The Kuqa Depression, Tarim Basin, northwestern China. Marine and Petroleum Geology, 2022, 146:105936
Qiu N S, Liu W, Fu X D, et al., Maturity evolution of Lower Cambrian Qiongzhusi formation shale of the Sichuan Basin. Marine and Petroleum Geology, 2021, 128,105061.
Chang J, Stijn Glorie, Qiu N S, et al., Late Miocene (10.0∼��������6.0 Ma) Rapid Exhumation of the Chinese South Tianshan: Implications for the Timing of Aridification in the Tarim Basin. Geophysical Research Letters, 2021,48(3): e2020GL090623
Feng Q Q, Qiu N S*, Fu X D, et al., Permian geothermal units in the Sichuan Basin: Implications for the thermal effect of the Emeishan mantle plume. Marine and Petroleum Geology, 2021,132,105226.
邱楠生,刘一锋,刘雯和贾京坤.沉积盆地古压力重建方法与研究实例.中国科学: 地球科学, 2020,50(6): 793-806.
Liu Y C, Qiu N S*, Li H L, et al., Terrestrial heat flow and crustal thermal structure in the northern slope of Tazhong uplift in Tarim Basin. Geothermics, 2020, 83: 101709.
蔡长娥,邱楠生*,李慧莉,等.自然演化碎屑锆石(U-Th)/He封闭温度的研究.中国科学: 地球科学, 2020,50(1): 66-78.
刘雨晨,邱楠生*,常健,等. 碳酸盐团簇同位素在沉积盆地热演化中的应用-以塔里木盆地顺托果勒地区为例.地球物理学报,2020,63(2):597-611.
Liu Y F, Qiu N S*, et al., Temperature and pressure characteristics of the Ordovician gas condensate reservoirs in the Tazhong area, Tarim Basin, Northwest China. AAPG Bulletin, 2019, 103(6) :1351-1381
Chang J*, Qiu N S*, Liu S, et al., Post-Triassic multiple exhumation of the Taihang Mountains revealed via low-T thermochronology: Implications for the paleogeomorphologic reconstruction of the North China Craton. Gondwana Research, 2019, 68 :34-49.
Wang Y, Qiu N S*, Tenger B, et al., Integrated assessment of thermal maturity of the Upper Ordovician-Lower Silurian Wufeng-Longmaxi shale in Sichuan Basin, China. MPG, 2019, 100: 447-465
Chang J, Li D, Kyle M, Qiu N S*, et al., Cenozoic deformation of the Kalpin fold-and-thrust belt (southern Chinese Tian Shan): new insights from low-temperature thermochronology and sandbox modeling. Tectonophysics, 2019, 766:416-432
Xu W, Qiu N S*, Li Y. Evolution of the Cenozoic thermal lithosphere of the Jiyang Sub-basin, Bohai Bay Basin: Implications for the lithospheric thinning mechanism. Tectonophysics, 2019, 773:228229.
Zhu C Q, Qiu N S, Liu Y F, et al., Constraining the denudation process in the Eastern Sichuan Basin using low-temperature thermochronology and vitrinite reflectance data from boreholes. Geological Journal, 2019: 54:426–437.
Cui Y, Zhu C Q, Qiu N S, et al., Lithospheric Thermal Structure in the Xiong’an Area, North China: Constraints from Radioactive Heat Production Data. Energies, 2019,12, 4608.
Guo S S, Zhu C Q, Qiu N S, et al., Present geothermal characteristics and influencing factors in the Xiong'an New Area, North China. Energies, 2019, 12, 3884.
Qiu N S. Special Issue: Advances of Exploration and Utilization Technology of Geothermal Resources in China. Energy Exploration & Exploitation, 2019,37(2):605-606
徐秋晨,邱楠生*,刘雯,常青. 利用团簇同位素恢复沉积盆地热历史的探索.科学通报,2019, 64(5-6): 566-578.
Qiu N S, Liu S. Uplift and denudation in continental area of China linked to climate effects: evidence from apatite and zircon fission track data. Scientific Reports, 2018, 8:9546.
Liu W, Qiu N S*, Xu Q C, et al., Precambrian temperature and pressure system of Gaoshiti-Moxi block in the central paleo-uplift of Sichuan Basin, southwest China. Precambrian Research, 2018, 313:91-108.
Tian Y T, Kohn B P, Qiu N S, et al., Eocene to Miocene out-of-sequence deformation in the eastern Tibetan Plateau: Insights from shortening structures in the Sichuan Basin. JGR-Solid Earth, 2018, 123(2):1840-1855.
Jiang Q, Qiu N S*, Zhu C Q, Heat flow study of the Emeishan large igneous province region: Implications for the geodynamics of the Emeishan mantle plume. Tectonophysics, 2018, 724-725: 11-27.
Chang J, Qiu N S*, Zhao X Z, et al., Tectono-thermal reconstruction of the western Bohai Bay Basin (East China) and its implication for hydrocarbon generation and migration. Journal of Asian Earth Sciences, 2018, 160:380-395.
Xu Q C, Qiu N S*, Zhang G W, et al., Thermal Evolution and Maturation of Sinian and Cambrian Source Rocks in the Central Area of the Sichuan Basin, Southwest China. Journal of Asian Earth Sciences, 2018,164:143-158.
Liu Y F, Qiu N S*, Chen J F, et al., Origins and accumulation processes of the Ordovician gas condensate in the Tazhong area, Tarim Basin, northwest China. Geological Journal, 2018, 53(4): 1354-1371
Liu W, Qiu N S*, Shen A J, et al., The evolution of pore-fluid pressure and its causes in the Sinian-Cambrian deep carbonate gas reservoirs in Central Sichuan Basin, Southwest China. Journal of Petroleum Science and Engineering, 2018,160: 96-109
Xu W, Qiu N S*, Wang Y, Chang J. The evolution of the Meso-Cenozoic lithospheric thermal-rheological structure in the Jiyang sub-basin, Bohai Bay Basin, eastern North China Craton. International Journal of Earth Sciences, 2018, 107:153-166
Liu Y C, Chen D X*, Qiu N S*, et al., Geochemistry and origin of continental natural gas in the western Sichuan basin, China. J. Natural Gas Science and Engineering,2018, 49:123-131.
Zhu C Q, Hu S B, Qiu N S, et al., Geothermal constraints on Emeishan mantle plume magmatism: paleotemperature reconstruction of the Sichuan Basin, SW China. International Journal of Earth Sciences, 2018,107:71-88.
Wu H, Wu S X, Qiu N S*, et al., Quantitative identification of the annealing degree of apatite fission track using the terahertz time domain spectroscopy (THz-TDS). Applied Spectroscopy, 2018, 72(6):870-878
Chang J, Qiu N S, Xu W. Thermal regime of the Tarim Basin, Northwest China: A review. International Geology Review, 2017, 59(1):49-61.
Chang J, Tian Y T, Qiu N S*. Mid-Late Miocene deformation of the northern Kuqa fold- and- thrust belt (southern Chinese Tian Shan): An apatite (U-Th-Sm)/��������He study. Tectonophysics, 2017,694:101-113.
Liu Y F, Qiu N S*, Yao Q Y, Zhu C Q. Impact of Temperature on Overpressure Unloading in the Central Sichuan basin, southwest China. J Petroleum Science and Engineering, 2017, 156: 142-151.
Xu W, Qiu N S*. Heat flow and Destabilized Cratons: A comparative study of the North China, Siberian, and Wyoming Cratons. International Geology Review, 2017,59(7):884-904.
Liu N, Qiu N S*, Chang J, et al., Hydrocarbon migration and accumulation of the Suqiao Buried-hill Zone in Wen’an Slope, Jizhong Subbasin, Bohai Bay Basin, China. MPG, 2017, 86:512-525.
Liu Y C, Chen D X*, Qiu N S*, et al., Reservoir characteristics and methane adsorption capacity of the Upper Triassic continental shale in Western Sichuan Depression, China. Australian J. Earth Sciences, 2017,64(6): 807-823
Li L, Qiu N S. The initiation and tectonic regimes of the Cenozoic extension in the Bohai Bay Basin, North China revealed by numerical modelling. J. Asian Earth Sciences, 2017, 140:92-107.
Qiu N S, Zuo Y H, Xu W, et al., Meso-Cenozoic lithosphere thinning in the eastern North China Craton: evidence from thermal history of the Bohai Bay Basin, North China. Journal of Geology, 2016, 142: 195-219.
Qiu N S, Zuo Y H, Xu W, Chang J, Meso-Cenzoic thermal structure of the lithosphere in the Bohai Bay Basin, eastern North China Craton. Geological Journal, 2016, 51:794-804.
Liu Y F, Qiu N S*, Xie Z Y, et al., Overpressure compartments in the Central Paleo-Uplift, Sichuan Basin, Southwest China. AAPG Bulletin, 2016,100(5):867-888
Chang J, Li J W, Qiu N S, Song X Y, Li H L. Multiple cooling episodes in Central Tarim (Northwest China) revealed by apatite fission track analysis and vitrinite reflectance data. International J. of Earth Science, 2016,105(4):1257-1272.
Liu Y F, Qiu N S*, Chang J, et al., Distribution and evolution for the Upper Triassic overpressures in the central of Sichuan Basin, SW China. J Petroleum Science and Engineering, 2016, 1116-1129.
Chang J, Qiu N S and Xu W. Thermal regime of the Tarim Basin, Northwest China: A review. International Geology Review, 2017, 59(1) :49-61.
Li Z, Qiu N S, Chang J, Yang X M., Precambrian evolution of the Tarim Block and its tectonic affinity to other major continental blocks in China: New clues from U-Pb geochronology and Lu-Hf isotopes of detrital zircons. Precambrian Research, 2015, 270:1-21.
Qiu N S, Xu W, Zuo Y H, Chang J. Meso-Cenozoic thermal regime in the Bohai Bay Basin, eastern North China Craton. International Geology Review, 2015, 57(3):271-289
Zuo Y H, Qiu N S, Hao Q Q, et al., Geothermal regime and source rock thermal evolution in the Chagan sag, Inner Mongolia, northern China. MPG, 2015, 59:245 -267.
Qiu N S, Zuo Y H, Chang J, Li W Z. Geothermal evidence of Mesozoic and Cenozoic lithospheric thinning in the eastern North China craton: constraints from the thermal history of the Jiyang sub-basin, Bohai Bay Basin. Gondwana Research, 2014, 26(3-4):1079-1092.
Chang J, Roderick B, Yuan W M, Li W Z, Que Y Q, Qiu N S*. Mesozoic cooling history of the ‘Bachu Uplift’ in the Tarim Basin, China : constraints from zircon fission-track thermochronology. Radiation Measurements,2014,67:5-14
Qiu N S, Chang J, Zuo Y H, et al., Thermal evolution and Lower Paleozoic source rocks maturation in the Tarim Basin, Northwest China. AAPG Bulletin, 2012, 96(5): 789-821
Qiu N S, Chang J, Li W Z, et al., New evidence on the Neogene uplift of South Tianshan: Constraints from the (U-Th)/He and AFT ages of borehole samples of the Tarim basin and implications for hydrocarbon generation. International J. Earth Sciences, 2012,101(6): 1625-1643
Qiu N S, Li H L, Xu E S, Qin J Z, Zheng L J. Temperature and time effects on free radical concentration in organic matters: evidence from laboratory pyrolysis experimental and geological samples. Energy Exploration and Exploitation, 2012, 30(2):311-329.
Chang J, Qiu N S, Li J W. Tectono-thermal evolution of the northwestern Tarim Basin in China: Constrains from zircon and apatite (U-Th)/He thermochronology. J. Asian Earth Sciences, 2012, 61:187-198.
Chang J, Qiu N S. Closure temperature of (U-Th)/He system in apatite obtained from natural drillhole samples in the Tarim basin and its geological significance. Chinese Science Bulletin, 2012, 57(26): 3482-3490.
Tian Y T, Qiu N S, Barry P K, et al., Detrital zircon (U-Th)/He thermochronometry of the Mesozoic Daba Shan foreland basin, central China: evidence from timing of post-orogenic denudation. Tectonophysics, 2012,(570-571):65-77
Zuo Y H, Qiu N S, Zhang Y, et al., Geothermal regime and hydrocarbon Kitchen evolution of the offshore Bohai Bay Basin, North China. AAPG Bulletin, 2011, 95(5):749-769
Qiu N S, Jiang G, Mei Q H, et al., The Paleozoic tectonothermal evolution of the Bachu Uplift of the Tarim Basin, NW China: constraints from (U-Th)/He ages, apatite fission track and vitrinite reflectance data. J. Asian Earth Sciences, 2011, 41(6):551-563
Qiu N S, Zuo H Y, Zhou X H, Li C C. Geothermal regime of the Bohai Offshore Area, Bohai Bay Basin, North China. Energy Exploration & Exploitation, 2010, 28(5):327-350
Qiu N S, Wang J Y, Mei Q H, et al., Constraints of (U-Th)/He ages on early Paleozoic tectonothermal evolution of the Tarim Basin, China. Science China: Earth Sciences, 2010, 53(7): 964-976.
Qiu N S, Zhang Z H, Xu E S. Geothermal regime and Jurassic source rocks maturity in the Junggar Basin, Northwest China. J. Asian Earth Science, 2008, 31(4-6):464-478
Qiu N S, Li H L, Jin Z J, Zhu Y K. Temperature and time effect on the concentrations of free radicals in coal: evidence from laboratory pyrolysis experiments. International J. of Coal Geology, 2007, 69(3): 220-228.
Qiu N S, Zha M, Wang X L, et al., Tectono-thermal evolution of the Junggar Basin, Northwest China: Constraints from Ro and apatite fission track modeling. Petroleum Geosciences, 2005, 11(4):361-372.
Qiu N S. Geothermal regime in the Qaidam basin, northeast Qinghai-Tibet Plateau. Geological Magazine, 2003, 140(6):707-719
Qiu N S, Kang Y S, Jin Z J. Temperature and pressure field in the Tertiary succession of the Western Qaidam Basin, Northeast Qinghai-Tibet Plateau, China. MPG, 2003, 20(5):493-507
Qiu N S. Tectono-thermal Evolution of the Qaidam Basin, China-evidence from Ro and Apatite fission track data. Petroleum Geosciences, 2002, 8(3):279-285
Qiu N S, Wang J Y. The use of free radicals of organic matter to determine paleogeo- temperature gradient. Organic Geochemistry, 1998, 28(1/2):77-86
8、研究生培养情况
已毕业硕士研究生70余人(其中1人获得了李四光优秀研究生奖励,7人获得学校优秀硕士论文),博士研究生21人(其中3人获得学校优秀博士毕业生)。注重培养学生的创新能力、独立工作能力和动手能力,采取指导、交流与相互探讨的方式,培养其科研思路及综合分析问题和解决问题的能力,鼓励研究生出国参加国际会议。硕士研究生一年级阶段原则上不要求参与科研工作,主要以上课和查阅相关文献为主,学会撰写科技论文,着重了解某方面科研的方法、国内外研究现状与发展前景。进入论文阶段后,选定论文题目、进一步进行文献阅读和分析,进入独立工作的培养阶段。要求硕士研究生毕业前至少公开发表论文1篇(含接受),参加1次以上的全国会议。研究生进入论文后的补助将依据其工作表现,在学校规定的基础上给予奖励。博士研究生按照学校的规定发表1篇以上的国际期刊论文、参加相应的科研工作和鼓励出国参加国际会议或进行国际交流(联合培养),现已有10余名博士和硕士生到国外实验室进行联合研究。
