1、中国地质大学北京研究生优秀科研成果奖励汇总中国地质大学(北京)2017年研究生优秀科研成果奖励汇总序号姓 名学 号专 业科 研 成 果积分等级1张晓光3003150004硕博1+4材料科学与工程1、 Preparation and characterization of the properties of polyethylene glycol Si3N4 nanowires as phase-change materials. Chemical Engineering Journal. 2016, 301: 229-237. SCI, IF=6.216, Q1: 8/135. B2、 Pol
2、yethylene glycol/Cu/SiO2 form stable composite phase change materials: preparation, characterization, and thermal conductivity enhancement, RSC Advances, 2016, 6: 58740-58748. SCI, IF=3.108, Q2: 59/166. D3、 Preparation and performance of novel form-stable composite phase change materials based on po
3、lyethylene glycol/White Carbon Black assisted by super-ultrasound-assisted, Thermochimica Acta, 2016, 638: 35-43. SCI, IF=1.938, Q2: 16/58. D4、 Thermal conductivity enhancement of polyethylene glycol/expanded perlite with carbon layer for heat storage application, Energy and Buildings, 2016, 130: 11
4、3-121. SCI, IF=4.067, Q1: 3/125. A新增5、Enhancement of thermal conductivity by the introduction of carbon nanotubes as a filler in paraffin/expanded perlite form-stable phase-change materials. Energy and Buildings, 2017, 149: 463-470. SCI, IF=4.067, Q1: 3/125. A6、Form stable composite phase change mat
5、erials from palmitic-lauric acid eutectic mixture and carbonized abandoned rice: preparation, characterization, and thermal conductivity enhancement. Energy and Buildings, http:/dx.doi.org/10.1016/j.enbuild.2017.08.057. SCI, IF=4.067, Q1: 3/125. A7、Shape-stabilized composite phase change materials w
6、ith high thermal conductivity based on stearic acid and modified expanded vermiculite. Renewable Energy, 2017, 112, 113-123. SCI, IF=4.357, Q1: 18/92. C205新增115特等2刘海坤3003150007硕博3+3材料科学与工程1. Surface treatment investigation and luminescence properties of SiO2-coated Ca2BO3Cl:0.02Eu2+ phosphors via so
7、l-gel process. Journal of Physics and Chemistry of Solids, 2012, 73, 104-108. SCI, IF=2.059 Q2: 77/166. D2. Synthesis and energy transfer studies of Eu2+ and Mn2+ co-doped Sr3.45Y6.5O2(PO4)1.5(SiO4)4.5 phosphor. Optics Communications, 2013, 309, 64-67. SCI, IF= 1.588, Q3: 52/92. D3. A novel single-c
8、omposition trichromatic white-emitting Sr3.5Y6.5O2(PO4)1.5(SiO4)4.5: Ce3+/Tb3+/Mn2+ phosphor: synthesis, luminescent properties and applications for white LEDs. Journal of Materials Chemistry C, 2014, 2, 1619-1627. SCI, IF = 5.256, Q2: 49/163/148. D4. Synthesis, broad-band absorption and luminescenc
9、e properties of blue-emitting phosphor Sr8La2(PO4)6O2:Eu2+ for n-UV white-light-emitting diodes. Ceramics International, 2014, 40:13709-13713. SCI, IF = 2.986, Q1: 3/27. C5. Synthesis, structure and green luminescence evolution of apatite-type Sr3.5Y6.5(PO4)1.5(SiO4)4.5O2:Eu2+,Tb3+ phosphors. Journa
10、l of Luminescence, 2014, 156: 49-54. SCI, IF=2.686, Q1: 18/90. C6. Structure, luminescence property and energy transfer behavior of color-adjustable La5Si2BO13:Ce3+,Mn2+ phosphors. RSC Advance, 2014, 4, 7288-7295. SCI, IF = 3.108, Q2: 59/166. D7. Facile combustion synthesis and photoluminescence pro
11、perties of Ce3+ doped Sr2La8(SiO4)6O2 phosphors. Optical Materials, 2015, 52, 553-555. SCI, IF = 2.238, Q2: 36/92. D8. Synthesis, photoluminescence properties and energy transfer behavior of color-tunable fluorapatite phosphor Sr9Gd(PO4)5(SiO4)F2:Tb3+/Sm3+. Ceramics International, 2016, 42: 16579-16
12、583. SCI, IF = 2.986, Q1: 3/27. C9. A novel single-phase white light emitting phosphor Ca9La(PO4)5(SiO4)F2:Dy3+: synthesis, crystal structure and luminescence properties. RSC. Advances, 2016, 6, 24577-24583. SCI, IF = 3.108, Q2: 59/166. D10 Tunable luminescence properties and energy transfer of Ba3N
13、aLa(PO4)3F:Tb3+,Sm3+ phosphors with apatite structure. Journal of Luminescence, 2016, 169, 739-743. SCI, IF=2.686, Q1: 18/90. C11. Ca9La(PO4)5(SiO4)Cl2:Dy3+: A white-emitting apatite-type phosphor pumped for n-UV w-LEDs. Journal of Luminescence, 2017, 181: 407-410, SCI, IF=2.686, Q2: 25/92. D新增:12.
14、Tetrahedral substitution to induce tunable luminescent properties in apatite structural solid-solution phosphors Ca9La(PO4)5(Si,Ge)O4F2:Ce3+. Dyes and Pigments. 2017, 145: 514-517. SCI, IF=3.473. Q1: 1/24. A13. Structure refinement and luminescence properties of a novel apatite type compound Mn2Gd8(
15、SiO4)6O2. Dyes and Pigments. 2017, 140: 87-91. SCI, IF=3.473. Q1: 1/24. A14. Synthesis and photoluminescence properties of Dy3+ doped white-emitting phosphor Sr9La(PO4)3(SiO4)Cl2:Dy3+. Nanoscience and Nanotechnology Letters. 2017, 9: 252-255. SCI, IF=1.889. Q2: 63/148. D200新增105特等3曾超3003160005硕博材料科学
16、与工程1、A novel apatite-based warm white emitting phosphor Ba3GdK(PO4)3F:Tb3+, Eu3+ with efficient energy transfer for w-LEDs. RSC Advances, 2015, 5, 6809968108.SCI, IF=3.84, Q2, 49/163 D2、Color-tunable properties and energy transfer in Ba3GdNa(PO4)3F:Eu2+,Tb3+ phosphor pumped for n-UV w-LEDs. Optics &
17、 Laser Technology,2015, 74, 6-10. SCI, IF=1.65,Q2,40/87. D3、Achieving tunable photocatalytic activity enhancement by elaborately engineering composition-adjustable polynary heterojunctions photocatalysts. Applied Catalysis B: Environmental, 2016, 194: 6273. SCI, IF=8.33 Q1:1/50 A4、Dual redox couples
18、 Ag/Ag+ and I/(IO3) self-sacrificed transformation for realizing multiplex hierarchical architectures with universally powerful photocatalytic performance. Applied Catalysis B: Environmental, 2017, 200: 620632, SCI, IF=8.33 Q1:1/50 A5、Facile In Situ Self-Sacrice Approach to Ternary Hierarchical Arch
19、itecture Ag/AgX (X = Cl, Br, I)/AgIO3 Distinctively Promoting Visible-Light Photocatalysis with Composition-Dependent Mechanism. ACS Sustainable Chem. Eng. 2016, 4: 33053315, SCI, IF=5.27 Q1:9/135 B6、A novel blue-greenish emitting phosphor Ba3LaK(PO4)3F:Tb3+ with high thermal stability. Materials Re
20、search Bulletin, 2016, 76: 6266, SCI, IF=2.44 Q2:74/271 D新增7, Fabrication of Heterogeneous-Phase Solid-Solution Promoting Band Structure and Charge Separation for Enhancing Photocatalytic CO2 Reduction: A Case of ZnXCa1XIn2S4. ACS Appl. Mater. Interfaces 2017, 9: 2777327783. SCI, IF=7.50. Q1:22/275.
21、 B8,BiOBr0.75I0.25/BiOIO3 as a Novel Heterojunctional Photocatalyst with Superior Visible-Light-Driven Photocatalytic Activity in Removing Diverse Industrial Pollutants. ACS Sustainable Chem. Eng. 2017, 5: 38973905, SCI, IF=5.95. Q1:9/135. B9, A new green-yellowish emitting fluoro-apatite compound p
22、hosphor Ba3TbK(PO4)3F:Sm3+ with high thermal stability. J. Rare Earths, 2017, 35: 767, SCI, IF=2.43. Q2:22/72. D210新增65特等4田娜3003140017硕博1+4材料科学与工程1、Enhanced photocatalytic activities on Bi2O2CO3/ZnWO4 nanocomposites. Journal of Materials Research. 2014, 29, 641648. SCI, IF=1.673, Q3: 151/275 D2、Nove
23、l g-C3N4/BiIO4 heterojunction photocatalysts: synthesis, characterization and enhanced visiblelight-responsive photocatalytic activity. RSC Advances. 2014, 4, 4271642722. SCI, IF=3.108, Q2: 59/166 D3、Influences of Gd substitution on the crystal structure and visible-light-driven photocatalytic perfo
24、rmance of Bi2WO6. The Journal of Physical Chemistry C. 2014, 118, 1564015648. SCI, IF=4.536, Q1: 43/275 C4、A g-C3N4/Bi2O2CO3 composite with high visible-light-driven photocatalytic activity for rhodamine B degradation. Applied Surface Science. 2014, 322, 249254. SCI, IF=3.387, Q1: 2/18 C5、Mixed-calc
25、ination synthesis of CdWO4/g-C3N4 heterojunction with enhanced visible-light-driven photocatalytic activity. Applied Surface Science. 2015, 358, 343-349. SCI, IF=3.387, Q1: 2/18 C6、Organicinorganic hybrid photocatalyst g-C3N4/Ag2CO3 with highly efficient visible-light-active photocatalytic activity.
26、 Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2015, 467, 188-194. SCI, IF=2.714, Q2: 65/146 D7、Mediator-free direct Z-scheme photocatalytic system: BiVO4/g-C3N4 organic-inorganic hybrid photocatalyst with highly efficient visible-light-induced photocatalytic activity. Dalton Tra
27、nsactions. 2015, 44, 4297-4307. SCI, IF=4.029, Q1: 7/46 C8、g-C3N4/Bi4O5I2 2D2D heterojunctional nanosheets with enhanced visible-light photocatalytic activity. RSC Advances, 2016, 6, 10895-10903. SCI, IF=3.108, Q2: 59/166 D9、In-situ co-pyrolysis fabrication of CeO2/g-C3N4 n-n type heterojunction for
28、 synchronously promoting the photo-induced oxidation and reduction properties. Journal of Materials Chemistry A, 2015, 3, 17120 17129. SCI, IF=8.867, Q1: 4/92 A新增10、Precursor-reforming protocol to 3D mesoporous g-C3N4 established by ultrathin self-doped nanosheets for superior hydrogen evolution. Na
29、no Energy 2017, 38: 7281. SCI, IF=12.343, Q1: 12/275 A180新增50特等5何小芳3001150001硕博1+4矿物学、岩石学、矿床学1. Crustal recycling through intraplate magmatism: Evidence from the Trans-North China Orogen. Journal of Asian Earth Sciences, 2014, 95: 147-163. SCI, IF=2.741, Q1: 35/175. C2. Early to late Neoproterozoic
30、magmatism and magma mixingmingling in Sri Lanka: Implications for convergent margin processes during Gondwana assembly. Gondwana Research, 2016, 32: 151-180. SCI,IF=8.235, Q1: 21/188. C3. Shonkinites from Salem, southern India: Implications for Cryogenian alkaline magmatism in rift-related setting.
31、Journal of Asian Earth Sciences, 2015, 113: 812-825. SCI, IF=2.741, Q1: 35/175. C4. Neoproterozoic arc accretion along the eastern suture in Sri Lanka during Gondwana assembly. Precambrian Research, 2016, 279: 57-80. SCI,IF=4.037, Q1: 5/175. A5. Petrology, phase equilibria and monazite geochronology
32、 of granulite-facies metapelites from deep drill cores in the Ordos Block of the North China Craton. Lithos, 2016, 262: 44-57. SCI,IF = 3.723, Q1: 6/79. B新增6. Mesozoic felsic volcanic rocks from the North China craton: Intraplate magmatism associated with craton destruction. Geological Society of America Bulletin, 2017, 129: 947969. SCI, IF=4.212, Q1: 15/188. B7. Crustmantle interaction and craton destruction: evidence from Late Mesozoic plutons in the North China C
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