1、- 1 -中国地质大学(北京)2019 年研究生优秀科研成果奖励汇总序号 姓 名 学 号 导师 专 业 科 研 成 果 积分 等级1 刘敬寿 3006160002 丁文龙 矿产普查与勘探1. Simulation of paleotectonic stress fields and quantitative prediction of multi-period fractures in shale reservoirs: A case study of the Niutitang Formation in the Lower Cambrian in the Cengong block, Sou
2、th China. Marine and Petroleum Geology, 2017, 84: 289-310. SCI, IF = 2.888, Q1: 43/188. C2. 3D geomechanical modeling and numerical simulation of in-situ stress fields in shale reservoirs: A case study of the lower Cambrian Niutitang formation in the Cengong block, South China. Tectonophysics, 2017,
3、 712: 663-683. SCI, IF = 2.693, Q2: 25/84. D3. Methodology for quantitative prediction of fracture sealing with a case study of the lower Cambrian Niutitang Formation in the Cengong block in South China. Journal of Petroleum Science and Engineering, 160, 565-581. SCI,IF:2.382,Q1: 2/19. C4. Quantitat
4、ive prediction of fractures using the finite element method: A case study of the lower Silurian Longmaxi Formation in northern Guizhou, South China. Journal of Asian Earth Sciences, 154, 397-418. SCI, IF:2.866,Q2:50/189. D5. Correlation analysis of element contents and mechanical characteristics of
5、shale reservoirs: a case study in the Cengong block, south China. Marine C新增2、Magmatism and metallogenic mechanism of the Gaerqiong and Galale Cu-Au deposits in the west central Lhasa subterrane, Tibet: Constraints from geochronology, geochemistry, and Sr-Nd-Pb-Hf isotopes. Ore Geology Review 2019,
6、105: 616-635. SCI, IF=3.993; Q1: 1/20; A1、 西藏革吉县尕尔穷铜金矿床详查及找矿突破,自然资源部,国土资源科学技术二等奖,10 B95新增80特等5 郑司建 3006170038 姚艳斌 矿产普查与勘探1, Characterizations of full-scale pore size distribution, porosity and permeability of coals: A novel methodology by nuclear magnetic resonance and fractal analysis theory. Inter
7、national Journal of Coal Geology. 2018, 196, 148-158. SCI. IF=4.13,Q1:17/189. B新增2, Nuclear magnetic resonance T2 cutoffs of coals: A novel method by multifractal analysis theory. Fuel. 2019. 241, 715-724. SCI. IF=4.91,Q1:13/137. B3, Nuclear magnetic resonance surface relaxivity of coals. Internatio
8、nal Journal of Coal Geology. (Online. 2019 年 2 月 26 日. https:/doi.org/10.1016/j.coal. 2019.02.010). SCI. IF=4.13,Q1:17/190. B90新增60特等6 李宝迎 3003160017硕博 2+3 于翔 材料科学与工程1、 Diatomite-immobilized BiOI hybrid photocatalyst: Facile deposition synthesis and enhanced photocatalytic activity J. Applied Surfac
9、e Science, 2015, 353:1179-1185, SCI, IF=4.439, Q1:1/19 B2、Synthesis of Bi 2S3-Au dumbbelled heteronanostructures with enhanced photocatalytic and photoresponse propertiesJ. Langmuir, 2016, 32(44). SCI, IF=3.789, Q1:61/285 C3、Controllable synthesis of Co3O4 nanocrystals as efficient catalysts for oxy
10、gen reduction reaction. Nanotechnology, 29 (2018) 105401 SCI, IF=3.404, Q1:30/146 C新增4、Graphene quantum dots decorated ZnO-ZnFe 2O4 nanocages and their visible light photocatalytic activity. Applied Surface Science, 2019, 478:991-997, IF=4.439,Q1:1/19 B90新增30特等7 江美辉 3007160013 安海忠 管理科学与工程1、1. Multis
11、cale Fluctuation Features of the Dynamic Correlation between Bivariate Time Series, Mathematical Problems in Engineering, 2016, 4742060, SCI, IF=0.802, Q3: 59/85 D2. The influence of global benchmark oil prices on the regional oil spot market in multi-period evolution, Energy, 2017, 118, 742-752, SC
12、I, IF=4.520, Q1:3/58 B3. Reconstructing complex network for characterizing the time-varying causality evolution behavior of multivariate time series, Scientific Reports, 2017, 7, 10486, SCI, IF=4.259, Q1:10/64 C4. Global embodied mineral flow between industrial sectors: A network perspective, Resour
13、ces Policy, 2018, 58, 192-201, SSCI, IF=2.695, Q2:33/108 D新增5. The structural roles of sectors and their contributions to global carbon emissions: A complex network perspective, Journal of Cleaner Production, 2019, 208, 426-435, SCI, IF=5.651, Q1:21/242 B85新增30特等8 李海峰 3001160002 陈毓川 矿物学、岩石 学、矿床学1、 F
14、luid inclusions, isotopic characteristics and geochronology of the Sinongduo epithermal Ag-Pb-Zn deposit, Tibet, China. Ore Geology Reviews,. SCI, IF=3.993,Q1:1/20. (online 时间:2019 年 2 月 27 日) A2、 The First Discovery of Rhyolite Interlayer in the Mugagangri Group in the Bangonghu-Nujiang Suture Zone
15、, Tibet and the U-Pb Dating. Acta Geologica Sinica (English Edition), 2018, 92(1): 416-417. SCI, IF=2.506 (5 年平均 2.207),Q2:64/190 D3、西藏革吉县尕尔穷铜金矿床详查及找矿突破, 国土资源科学技术奖励评审委员会,二等奖,第 9 B85 特等9 王宝辰 3003160014硕博 2+3 刘艳改 材料科学与工程1、Enhancement of Photoluminescence in BaSi2O2N2: Eu2+ by Partial Ge4+ Substitution
16、 for Si4+ J. Journal of nanoscience and nanotechnology, 2016, 16(4): 3608-3612. SCI, IF= 1.354, Q3: 95/166. D2、Photoluminescence properties and application of yellow Ca0.65Si10Al2O0.7N15.3: xEu2+ phosphors for white LEDs J. Solid State Sciences, 2017, 64: 84-90.SCI, IF=1.861, Q2: 23/46. D3、Discovery
17、 of novel solid solution Ca3Si3xO3+xN42x: Eu2+ phosphors: structural evolution and photoluminescence tuning J. Scientific reports, 2017, 7(1): 18103. SCI, IF=4.122, Q1:12/64. C4、Energy transfer and thermal stability of Ce3+, Tb3+ co-doped Ca3Si2O4N2 phosphors for white light-emitting diodes J. Chemi
18、cal Physics Letters, 2017, 690: 31-37. SCI, IF=1.686, Q3:101/147. C5、Photoluminescence properties of a Ce3+ doped Sr3MgSi2O8 phosphor with good thermal stability J. RSC Advances, 2018, 8(28): 15587-15594. .SCI, IF=2.936, Q2:71/171. C新增6、Crystal structure tailoring and luminescence tuning of Sr1 xBax
19、Al2Si2O8: Eu2+ phosphors for white-light-emitting diodes J. Journal of Alloys and Compounds, 2019, 776: 554-559. SCI, IF= 3.779, Q1:4/75. B85新增30特等- 3 -10 徐同舟3003140021硕博 1+4延期郑红 材料科学与工程1、Hydrothermal preparation of nanoporous TiO2 films with exposed 001 facets and superior photocatalytic activity.
20、Journal of Materials Chemistry A. 2015,3(37): 19115-19122. SCI,IF=9.931,Q1:6/97. B2、Photocatalytic degradation of a low concentration pharmaceutical pollutant by nanoporous TiO2 film with exposed 001 facets. RSC Advances. 2016,6(98): 95818-95824. SCI,IF=2.936,Q2:71/171. D新增3、Performance of an innova
21、tive VUV-PCO purifier with nanoporous TiO2 film for simultaneous elimination of VOCs and by-product ozone in indoor air. Building and Environment. 2018,142: 379-387. SCI,IF=4.539,Q1:2/128. A85新增50-5特等11 付萌3003150018硕博贯通1+4张泽朋 材料科学与工程1. Investigation on the co-modification process of montmorillonite
22、by anionic and cationic surfactants. Applied Clay Science. 2016,132-133: 694-701. SCI, IF=3.6, Q1 :5/29. C2. One-dimensional Magnetic Nanocomposites with Attapulgites as Templates: Growth, Formation Mechanism and Magnetic Alignment. Applied Surface Science. 2018, 441: 239-250. SCI, IF=4.4, Q1: 1/19.
23、 B3. Highly tunable liquid crystalline assemblies of superparamagnetic rod-like attapulgiteFe3O4 nanocomposite. Materials Letters. 2018, 226: 43-46. SCI, IF=2.6, Q2: 44/146. D新增4. Assembly, alignment and tunable optical properties of montmorillonite with superparamagnetic coating. Applied Surface Sc
24、ience, 2019, 469, 521-527. SCI, IF=4.4, Q1:1/19. B80新增30特等12 庄官政30031400201+4延期张泽朋 材料科学与工程1、A new ball milling method to produce organo-montmorillonite from anionic and nonionic surfactants. Applied Clay Science. 2015, 104, 18-26. SCI, IF=3.641,Q1:5/29. C2、Comparative study on the use of cationic-no
25、nionic-organo-montmorillonite in oil-based drilling fluids. Applied Clay Science. 2015, 116, 257-262. SCI, IF=3.641,Q1:5/29. C3、The structure and rheology of organo-montmorillonite in oil-based system aged under different temperatures. Applied Clay Science. 2016, 124, 21-30. SCI, IF=3.641,Q1:5/29 .
26、C4、Influences of surfactants on the structures and properties of organo-palygorskite in oil-based drilling fluids. Microporous & Mesoporous Materials, 2017, 244:37-46. SCI,IF=3.649 ,Q1: 12/71. C5、Rheological properties of organo-palygorskite in oil-based drilling fluids aged at different temperature
27、s. Applied Clay Science, 2017, 137:50-58. SCI,IF=3.641,Q1: 5/29. C6、Influence of the nonionic surfactants nature on the structures and properties of organo-montmorillonites. Colloids & Surfaces A Physicochemical & Engineering Aspects, 2017, 518:116-123. SCI,IF=2.829,Q2: 70/146. D7、Influence of the s
28、urfactants nature on the structure and rheology of organo-montmorillonite in oil-based drilling fluids. Applied Clay Science, 2017, 135: 244-252. SCI,IF=3.641 ,Q1: 5/29. C8、Comparative study on the structures and properties of organo-montmorillonite and organo-palygorskite in oil-based drilling flui
29、ds. Journal of Industrial & Engineering Chemistry, 2017, 56C: 248-257. SCI,IF=4.841,Q1: 14/137. C9、A new one-step method for physical purification and organic modification of sepiolite. Applied Clay Science, 2018, 153, 1-8. SCI,IF=3.641,Q1: 5/29. C 10、Structures and rheological properties of organo-
30、sepiolite in oil-based drilling fluids. Applied Clay Science, 2018, 154, 43-51. SCI,IF=3.641,Q1: 5/29. C11、Enhancing the rheological properties and thermal stability of oil-based drilling fluids by synergetic use of organo-montmorillonite and organo-sepiolite. Applied Clay Science, 2018, 161, 505-51
31、2. SCI,IF=3.641,Q1: 5/29. C12、Influence of the interaction between surfactants and sepiolite on the rheological properties and thermal stability of organo-sepiolite in oil-based drilling fluids. Microporous and Mesoporous Materials, 2018, 272, 143-154. SCI,IF=3.649,Q1: 12/71. C新增、13、Organic modifier
32、s of organo-montmorillonite in oil system under high temperatures: desorption or degradation? Industrial & Engineering Chemistry Research, 2019, 58(8): 2644-2653. SCI,IF=3.141 ,Q1: 33/137 C14、Synergistically using layered and fibrous organoclays to enhance the rheological properties of oil-based dri
33、lling fluids. Applied Clay Science, 2019, 172C, 40-48. SCI,IF=3.641 ,Q1: 5/29. C200新增30-5一等- 4 -13 陈世达 3006160035 汤达祯 矿产普查与勘探1、In-situ stress measurements and stress distribution characteristics of coal reservoirs in major coalfields in China: implication for coalbed methane (CBM) development, Inter
34、national Journal of Coal Geology, 2017, 182: 66-84. SCI, IF=4.13,Q1: 17/190. B2、Pore structure characterization of different rank coals using N2 and CO2 adsorption and its effect on CH4 adsorption capacity: a case in Panguan syncline, western Guizhou, China, Energy & Fuels, 2017, 31: 60346044. SCI,
35、IF=3.024,Q2: 36/137. D3、Characteristics of in-situ stress distribution and its significance on the coalbed methane (CBM) development in Fanzhuang-Zhengzhuang Block, Southern Qinshui Basin, China, Journal of Petroleum Science and Engineering, 2018, 161:108-120. SCI, IF=2.382,Q1: 2/19. C4、In-situ stre
36、ss, stress-dependent permeability, pore pressure and gas-bearing system in multiple coal seams in the Panguan area, western Guizhou, China, Journal of Natural Gas Science and Engineering, 2018, 49: 110-122. SCI, IF=2.803,Q2: 40/137. D新增5. Coal Reservoir Heterogeneity in Multi-coal Seams of the Pangu
37、an Syncline, Western Guizhou, China: Implication for the Development of Superposed CBM-Bearing Systems, Energy & Fuel. 2018,32:8241-8253. SCI, IF=3.024,Q2: 36/137. D6. Fractal analysis of the dynamic variation in pore-fracture systems under the action of stress using a low-field NMR relaxation metho
38、d: An experimental study of coals from western Guizhou in China. Journal of Petroleum Science and Engineering, 2019,173:617-629. SCI, IF=2.382,Q1: 2/19. C75新增20一等14 郗兆栋 3006160039 唐书恒 矿产普查与勘探1、Nano-Scale pore structure of marine-continental transitional shale from Liulin area, the eastern margin of
39、Ordos basin, China. J. Nanosci. Nanotechnol.2017, 17(9), 115. SCI, IF=1.354, Q3:114/171 D2、Pore structure characteristics of marinecontinental transitional shale: a case study in the Qinshui Basin, China. Energy & Fuels. 2017, 31(8), 78547866. SCI,IF=3.024, Q2: 36/137 D3、Pore structure and fractal c
40、haracteristics of Niutitang shale from China. Minerals, 2018, 8(4): 163. SCI, IF=1.835, Q2:7/20 D4、Experimental investigation of evolution of pore structure in Longmaxi marine shale using an anhydrous pyrolysis technique. Minerals, 2018, 8(6): 226. SCI, IF=1.835, Q2: 7/20 D5、The reservoir characteri
41、zation and shale gas potential of the Niutitang formation: Case study of the SY well in northwest Hunan Province, South China. J. Petrol. Sci. Eng. 2018, 171, 687703. SCI, IF=2.382, Q1: 2/19 C新增6. Formation and development of pore structure in marine-continental transitional shale from northern Chin
42、a across a maturation gradient: insights from gas adsorption and mercury intrusion. Int. J. Coal Geol. 2018, 200, 87102. IF=4.13, Q1: 17/190 B7. Pore characterization and the controls of organic matter and quartz on pore structure: Case study of the Niutitang Formation of northern Guizhou Province,
43、South China. J. Nat. Gas. Sci. Eng. 2019, 61, 1831. IF=2.803, Q2: 40/137 D70新增35一等15 郭鑫鹏 3002160003 彭志坚 材料科学与工程1. Carbon Dioxide Methanation over Nickel-Based Catalysts Supportedon Various Mesoporous Material. Energy&Fuels, 2018, 32, 3681-3689. SCI, IF=3.622, Q2: 36/137. D2. Highly Active Ni-Based C
44、atalyst Derived from Double Hydroxides Precursor for Low Temperature CO2 Methanation. Industrial & engineering chemistry research, 2018, 57/28, 9102-9111. SCI, IF= 3.284, Q1:33/137 C新增: 3. Catalysts, process optimization, and kinetics for the production of methyl acrylate over vanadium phosphorus ox
45、ide catalysts. Industrial & Engineering Chemistry Research, 2017, 56, 5860-5871. SCI, IF= 3.284, Q1:33/137 C4. Ru nanoparticles stabilized by ionic liquids supported onto silica: Highly active catalysts for low temperature CO2 methanation. Green Chemistry, 2018, 20, 4932-4945. SCI, IF=8.717,Q1:2/33
46、B65新增45一等16 赵丹3005130017硕博 2+3延期王广才 地下水科学与工 程1、Removing barometric pressure effects from groundwater level and identifying main influential constituents. Science China Technological Sciences, 2012, 56(1), 129-136. SCI, IF= 1.938, Q2:27/86. D新增2、Groundwater-surface water interactions derived by hydro
47、chemical and isotopic (222Rn, deuterium, oxygen-18) tracers in the Nomhon area, Qaidam Basin, NW China. Journal of Hydrology, 2018, 565, 650-661. SCI, IF= 3.727, Q1:7/128. B3、获奖:地震导致地下水与含水介质变化研究及应用,自然资源部,国土资源科学技术奖二等奖,4。 B65新增60-5一等- 5 -17 陈炜明 3007160003硕博 2+3 雷涯邻 应用经济学1、Chinas water footprint by pro
48、vince, and inter-provincial transfer of virtual water. Ecological indicators, 2017, 74: 321-333.SCI, IF=3.983,Q1:49/242. C2、Interprovincial transfer of embodied energy between the Jing-Jin-Ji area and other provinces in China: A quantification using interprovincial input-output model. Science of the
49、 Total Environment,2017,584: 990-1003.,SCI, IF=4.61 ,Q1:27/242. C新增3、Virtual water export and import in chinas foreign trade: A quantification using input-output tables of China from 2000 to 2012. Resources, Conservation and Recycling, 2018, 132: 278-290.,SCI, IF=5.12 ,Q1:23/242. B60新增30一等18 何巧冲 3005140009延期 冯传平 环境科学与工程1、Biological denitrification using rice washing drainage (RWD) as carbon source for removing nitrate from groundwater. De
