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公示材料。 公示期:2022年4月27 -5月12日 联系人:宋老师 联系电话:010-82322972 如有弄虚作假,一经发现取消其申请资格 材料科学与工程学院 2022年4月27日 | | | | | | | | | | | 序号 | 报名号 | 姓名 | 申请专业 | 申请导师 | 英语水平 | 科研成果 | 备注 | | 1 | 1.14E+09 | 陈博利 | 材料科学与工程 | 吴小文 | 六级433 | [1] β-Ga2O3单晶制备工艺的研究进展。功能材料,2021, 52(1).[2] preparation and photoluminescence properties of CaSc2O4: Eu3+ red phosphorfor white LEDs. Journal of Materials Science: Materials in Electronics. 2022.3.30在投(under review), IF=2.478.[3] One-step Synthesis of t-ZrO2 from Zircon Using Magnesium-calcium Mineralsas Stabilizers. Ceramics International, 2022.4.24在投(required reviews completed),IF=4.527. | 须在2022年5月31日前online,否则取消录取资格 | | 2 | 1.14E+09 | 陈通 | 材料科学与工程 | 黄洪伟 | 外语水平测试51 | [1] A honeycomb multilevel structure Bi2O3 with highly efficient catalytic activitydriven by bias voltage and oxygen defect, APPLIED CATALYSIS B-ENVIRONMENTAL.2018, 237: 442-448.SCI,IF=19.503[2] Recent advances on Bi2WO6-based photocatalysts for environmental andenergy applications, CHINESE JOURNAL OF CATALYSIS. 2021, 42(9): 1413-1438, SCI,IF=8.271. | | | 3 | 1.14E+09 | 陈尧 | 材料科学与工程 | 安琪 | 六级447 | latest development and versatile applications of highly integrating drug deliverypatch. European polymer journal, 2022.4.1online, IF=4.598. | | | 4 | 1.14E+09 | 范家航 | 材料科学与工程 | 黄朝晖 | 六级446 | [1] Evaluation of the morphology and pore characteristics of silica refractory usingX-ray computed tomography, CERAMICS INTERNATIONAL. 2021, 47(13): 18084-18093, SCI, IF=4.527.[2] Properties of both Chinese silica brick and silica raw material, IRONMAKING &STEELMAKING. 2022.1.20 online, SCI, IF=1.679. | | | 5 | 1.14E+09 | 胡斌 | 材料科学与工程 | 吕国诚 | 六级479 | Development of microcellular thermoplastic polyurethane honeycombs with tailoredelasticity and energy absorption via CO2 foaming. INTERNATIONAL JOURNAL OFMECHANICAL SCIENCES. 2021, 197, 106324, SCI, IF=5.329. | | | | 6 | 1.14E+09 | 姜秋实 | 材料科学与工程 | 张以河 | 六级488 | [1] Controllable growth of MoS2 nanosheets on TiO2 burst nanotubes and theirphotocatalytic activity, RSC ADVANCES. 2020, 10(67): 40904-40915, SCI, IF=3.361.[2] Preparation and photocatalytic properties of ZnO nano-crack tube in TiO2micro-burst tube by soaking and calcination after electrospinning, MATERIALSLETTERS. 2021, 287, 129272, SCI, IF=3.423.[3] Preparation of 3D porous microstructural nano-TiO2 photocatalyst with highefficiency based on Spilosoma niveus wings, MATERIALS CHEMISTRY AND PHYSICS.2021, 266, 124519, SCI, IF=4.094.[4] TiO2 thin-walled nanofiber burst tube doped with Fe2O3 nanograss for efficientdegradation of levofloxacin: effect of precursor, NANOTECHNOLOGY. 2021, 32(49),495605, SCI, IF=3.874.[5] Preparation and properties of floral CaO/ZnO composite from Achatina fulicasnail shell, ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH. 2021, 28(43):61841-61847, SCI, IF=4.223.[6] Adsorption properties of heavy metals and antibiotics by chitosan from larvaeand adult Trypoxylus dichotomus, CARBOHYDRATE POLYMERS. 2022, 276, 118735,SCI, IF=9.381.[7] NH2-MIL-125 (Ti)/biochar fibers for enhanced direct dyes adsorption, JOURNALOF ENVIRONMENTAL CHEMICAL ENGINEERING. 2021, 9(6), 106636, SCI, IF=5.909.[8] Controlled preparation and photocatalytic performance of TiO2/ZnO phase-mixed nanotubes-based nano-spheres, MATERIALS CHEMISTRY AND PHYSICS.2022, 279, 125737, SCI, IF=4.094.[9] Low-cost magnetic clay derivants from palygorskite/MIL-101(Fe) for high-performance adsorption-photocatalysis, Applied Clay Science. 2022, 218, 106427,SCI, IF=5.467.[10] Amino-functionalized polyacrylonitrile/bentonite composite membranes foreffective decontamination of Pb2+ and Congo Red, Separation and PurificationTechnology. 2022, 287, 120606, SCI, IF=7.312.[11] Enhanced visible-light photocatalytic performance of ZIF-8-derived ZnO/TiO2nano-burst-tube by solvothermal system adjustment, Journal of Water ProcessEngineering. 2022.4.6 online, SCI, IF=5.485. | | | 7 | 1.14E+09 | 蒋迪 | 材料科学与工程 | 吕国诚 | 六级428 | [1] Synthesis of 3D flower-like hierarchical NiCo-LDH microspheres with boostedelectrochemical performance for hybrid supercapacitors, INORGANIC CHEMISTRYFRONTIERS. 2021, 8(19): 4324-4333, SCI, IF=6.569.[2] Preparation of Flower-like Nickel-Based Bimetallic Organic Framework Electrodesfor High-Efficiency Hybrid Supercapacitors, CRYSTALS. 2021, 11(11), SCI, IF=2.589. | | | 8 | 1.14E+09 | 景锐森 | 材料科学与工程 | 吕凤柱 | 外语水平测试49.5 | Construction of PDDA functionalized black phosphorus nanosheets/BiOI Z-schemephotocatalyst with enhanced visible light photocatalytic activity, JOURNAL OFCOLLOID AND INTERFACE SCIENCE. 2020, 576: 34-46, SCI, IF=8.128. | | | | 9 | 1.14E+09 | 李金洋 | 材料科学与工程 | 邓雁希 | 六级438 | Direct Z-scheme TiO2-x/AgI heterojunctions for highly efficient photocatalyticdegradation of organic contaminants and inactivation of pathogens, SEPARATIONAND PURIFICATION TECHNOLOGY. 2021, 261, 118306, SCI, IF=7.312. | | | 10 | 1.14E+09 | 李文峰 | 材料科学与工程 | 吕国诚 | 六级465 | [1] Graphene oxide-promoted Ti/PbO2 photoanode with photoelectric synergyeffect for efficient photoelectrocatalytic degradation of reactive brilliant blue,JOURNAL OF MATERIALS SCIENCE. 2021, 56(7): 4741-4752, SCI, IF=4.22.[2] Fabrication and photoelectrocatalytic performance of C3N4-modifiedTi/PbO(2)anode with surface hydrophobicity, JOURNAL OF SOLID STATEELECTROCHEMISTRY. 2020, 24(7): 1577-1585, SCI, IF=2.647.[3] Co3O4 Decorated Ti/TiO2 Nanotubes for Photogenerated Cathodic Protection of304 Stainless Steel, CHEMICAL RESEARCH IN CHINESE UNIVERSITIES. 2021, 37(3):704-710, SCI, IF=1.307. | | | 11 | 1.14E+09 | 梁绍杰 | 材料科学与工程 | 安琪 | 六级437 | oxygen vacancy-dependent catalytic activity of highly dispersed sub-3 nm CoOnanoparticles for oxygen reduction reaction. acs applied nano materials, 2022.3.24在投(under consideration), IF=5.079. | 须在2022年5月31日前online,否则取消录取资格 | | 12 | 1.14E+09 | 刘念 | 材料科学与工程 | 梅乐夫 | 六级425 | Coefficient of performance at maximum chi-criterion of thermochemicalrefrigerators with near-independent particles, PHYSICA A-STATISTICAL MECHANICSAND ITS APPLICATIONS. 2018, 511, 182-190, SCI, IF=3.263.主持安徽省教育厅重点项目:光子晶体对稀土离子荧光调控问题的研究。 | | | 13 | 1.14E+09 | 刘庆欣 | 材料科学与工程 | 胡应模 | 六级542 | [1] A novel functional coating with 2DMts/SA phase change material as filler and itspavement temperature regulation performance, MATERIALS LETTERS. 2022, 306,130905, SCI, IF=3.423.[2] Study on preparation and mechanism of organic montmorillonite with differentfunctional groups, AIP ADVANCES. 2022.4.4 online, SCI, IF=1.548.[3] Development of two-dimensional nano Mts/SA phase change materials for self-adjusting temperature of pavement. CONSTRUCTION AND BUILDING MATERIALS,2021.12.22在投(under review), IF=6.141 | | | 14 | 1.14E+09 | 刘权 | 材料科学与工程 | 郑红 | 六级437 | [1] High Visible Light Photocatalytic Activity of SnO2-x Nanocrystals with RichOxygen Vacancy, EUROPEAN JOURNAL OF INORGANIC CHEMISTRY. 2021,2021(42): 4370-4376, SCI, IF=2.524.[2] 自掺杂SnO2微球的水热合成及其可见光催化性能。人工晶体学报,2022, 51(1):139-147, | | | | 15 | 1.14E+09 | 刘宇坤 | 材料科学与工程 | 丁浩 | 六级453 | Co-solvent-assisted sintering and thermal stability investment ofBaMgAl10O17:Eu2+ by cationic substitution, OPTICAL MATERIALS. 2021, 122,111717, SCI, IF=3.08. | | | 16 | 1.14E+09 | 陆思宇 | 材料科学与工程 | 郑红 | 六级446 | [1] highly efficient removal of malachite green from water by ZnO/NiO/CeO2nanocomposite. Applied nanoscience, 2022.2.22在投, IF=3.674.[2] production of ZnO/CoOx-CeO2 nanocomposites and their dye removalperformance from wastewater by adsorption-photocatalysis, chemcatchem,2022.3.12在投(submitted), IF=5.686. | 须在2022年5月31日前online,否则取消录取资格 | | 17 | 1.14E+09 | 马智烨 | 材料科学与工程 | 郑红 | 雅思5.5 | [1] Preparation and Photocatalytic Performance of B,N-SnO2/TiO2 Photocatalyst,ACTA CHIMICA SINICA. 2021, 79(9): 1173-1179, SCI, IF=2.668.[2] 一种可见光响应的B,N共掺杂SnO2/TiO2前驱体及其制备方法和应用。ZL202010339315.4,2020年8月3日。发明专利 | | | 18 | 1.14E+09 | 孟凯月 | 材料科学与工程 | 吴小文 | 外语水平测试43 | Efficient Adsorption of the Cd(II) and As(V) Using Novel AdsorbentFerrihydrite/Manganese Dioxide Composites, ACS OMEGA. 2019, 4(20): 18627-18636, SCI, IF=3.512. | | | 19 | 1.14E+09 | 彭恒星 | 材料科学与工程 | 胡应模 | 六级529 | Hierarchical nanostructure with ultrafine MoO3 particles-decorated Co(OH)(2)nanosheet array on Ag nanowires for promoted hydrogen evolution reaction,CHEMICAL ENGINEERING JOURNAL. 2022, 429, 132477, SCI, IF=13.273. | | | 20 | 1.14E+09 | 任茜 | 材料科学与工程 | 刘金刚 | 六级525 | [1] Preparation of adipic acid-polyoxypropylene diamine copolymer and itsapplication for toughening epoxy resins, COMPOSITES PART B-ENGINEERING. 2017,119: 32-40 (2017.6.15), SCI, IF=9.078.[2] 一种性能优异的透明聚酰亚胺薄膜及其制备方法,ZL 202011347905.8,2021年5月11日。发明专利[3] 一种透明聚酰亚胺薄膜及其制备方法,ZL 201810841797.6,2020年9月15日。发明专利 | | | 21 | 1.14E+09 | 帅欢 | 材料科学与工程 | 丁浩 | 六级458 | [1] Black Talc-Based TiO2/ZnO Composite for Enhanced UV-Vis PhotocatalysisPerformance, MATERIALS. 2021, 14(21), 6474, SCI, IF=3.623.[2] Preparation of TiO2/Black Talc Composite Photocatalyst and the Research on ItsAdsorption-Degradation Coupling Effects, MATERIALS. 2021, 14 (20), 6038, SCI,IF=3.623.[3] Preparation of ZnO/Brucite Functional Composite Powder by theMechanochemical Method, FRONTIERS IN MATERIALS. 2021, 8, 801003, SCI,IF=3.515.[4] TiO2-C@硅藻土复合光催化剂的制备及其光催化性能研究。功能材料,2020,51(12): 12215-12220.[5] 电石渣制备纳米碳酸钙中浸出与碳化工艺研究。非金属矿,2018, 41(05): 4-6. | | | | 22 | 1.14E+09 | 田晓然 | 材料科学与工程 | 吕凤柱 | 六级452 | [1] Fabrication of plasmonic cotton gauze-Ag composite as versatile SERS substratefor detection of pesticides residue, SPECTROCHIMICA ACTA PART A-MOLECULARAND BIOMOLECULAR SPECTROSCOPY. 2021, 257, 119766, SCI, IF=4.098.[2] Surface-enhanced Raman scattering of flexible cotton fiber-Ag for rapidadsorption and detection of malachite green in fish, SPECTROCHIMICA ACTA PARTA-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY. 2021, 263, 120174, SCI,IF=4.098. | | | 23 | 1.14E+09 | 王宁宁 | 材料科学与工程 | 郑红 | 雅思5.5 | Robust, Lightweight, Hydrophobic, and Fire-Retarded Polyimide/MXene Aerogelsfor Effective Oil/Water Separation, ACS APPLIED MATERIALS & INTERFACES. 2019,11(43): 40512-40523, SCI, IF=9.229. | | | 24 | 1.14E+09 | 王启凯 | 材料科学与工程 | 白志民 | 六级435 | The synthesis of newly developed Li (1-x-y) Na x K y YF 4:Yb 3+/Er 3+and itsexcellent upconversion properties, OPTICAL MATERIALS. 2020, 108, 110164, SCI,IF=3.08. | | | 25 | 1.14E+09 | 王也晨 | 材料科学与工程 | 安琪 | 六级439 | [1] Trace Amount of NiP2 Cooperative CoMoP Nanosheets Inducing EfficientHydrogen Evolution, ACS OMEGA. 2021, 6(48), 33057-33066, SCI, IF=3.512.[2] Efficient Self-Supported Bifunctional NiMo Alloy Electrocatalysis for WaterSplitting in Alkaline Environment. ChemistrySelect, 2022.4.21 accept, IF=2.109. | | | 26 | 1.14E+09 | 王祎迪 | 材料科学与工程 | 张娜 | 六级508 | Photocatalysis in alkali activated cementitious materials, JOURNAL OF BUILDINGENGINEERING. 2022, 46, 103749, SCI, IF=5.318. | | | 27 | 1.14E+09 | 王振中 | 材料科学与工程 | 刘金刚 | 六级450 | 一种无色透明共聚酰胺-酰亚胺膜及其制备方法。ZL 202011579745.X,2021年8月3日。发明专利 | | | 28 | 1.14E+09 | 徐鑫 | 材料科学与工程 | 邓雁希 | 六级474 | [1] Study On Mineralogical Characteristics and Quality Evaluation of OmphaciteGemstone, FRESENIUS ENVIRONMENTAL BULLETIN, 2022, 31(01), 249-257, SCI,IF=0.489.[2] Cu2O骸晶的制备及其光催化性能探讨。功能材料,2021, 52(07): 7143-7148+7157. | | | 29 | 1.14E+09 | 杨晨光 | 材料科学与工程 | 刘艳改 | 六级453 | introducing cation disorder to enhance thermal stability in LuY3(BO3)4: Eu3+phosphors for pc-WLEDs, optical materials, 2022.4.14 在投(under review), IF=3.08. | 须在2022年5月31日前online,否则取消录取资格 | | 30 | 1.14E+09 | 杨航 | 材料科学与工程 | 陈代梅 | 雅思5.5 | Hollow Co3O4 dodecahedrons with controlled crystal orientation and oxygenvacancies for the high performance oxygen evolution reaction. MATERIALSCHEMISTRY FRONTIERS. 2021, 5(1): 259-267, SCI, IF=6.482. | | | | 31 | 1.14E+09 | 杨慧芳 | 材料科学与工程 | 梅乐夫 | 六级429 | [1] Improvement of the thermal stability of bluish-cyan emitting phosphorY2MgAl4SiO12:Eu2+ using substitution cations (Zn, Ca, Sr) for white LEDs,CRYSTENGCOMM. 2021.11 online, SCI, IF=3.545.[2] Structural modulation designed a thermally robust blue-cyan emitting phosphorY2Mg0.8Sr0.2 Al4SiO12:Eu2+ for the high color rendering index white LEDs, OPTICSLETTERS. 2020, 46(22), 5639-5642, SCI, IF=3.776. | | | 32 | 1.14E+09 | 杨梦瑶 | 材料科学与工程 | 黄朝晖 | 六级465 | [1] Kinetics and Mechanism of Oxidation Induced Contraction of MgAl2O4 SpinelCarbon Composites Reinforced by Al4C3 in situ Reaction, JOURNAL OF WUHANUNIVERSITY OF TECHNOLOGY-MATERIALS SCIENCE EDITION. 2020, 35(4): 778-785,SCI, IF=0.957.[2] In situ formation mechanism of aluminum oxycarbonitride in the unoxidizedzone of Al-Al2O3 composites, CERAMICS INTERNATIONAL. 2021, 47(16): 22949-22956, SCI, IF=4.527. | | | 33 | 1.14E+09 | 余俞堂 | 材料科学与工程 | 黄洪伟 | 六级487 | [1] Soft-template assisted construction of superstructure TiO2/SiO2/g-C3N4 hybridas efficient visible-light photocatalysts to degrade berberine in seawater via anadsorption-photocatalysis synergy and mechanism insight, APPLIED CATALYSIS B-ENVIRONMENTAL. 2020, 268, 118751, SCI, IF=19.503.[2] Adsorption-photocatalysis synergistic removal of contaminants under antibioticand Cr(VI) coexistence environment using non-metal g-C3N4 based nanomaterialobtained by supramolecular self-assembly method, JOURNAL OF HAZARDOUSMATERIALS. 2021, 404(A), 124171, SCI, IF=10.588.[3] Synergistic adsorption-photocatalytic degradation of different antibiotics inseawater by a porous g-C3N4/calcined-LDH and its application in syntheticmariculture wastewater, JOURNAL OF HAZARDOUS MATERIALS. 2021, 416, 126183,SCI, IF=10.588. | | | 34 | 1.14E+09 | 郁香 | 材料科学与工程 | 郑红 | 六级436 | Transition-Metal-Modified Vanadoborate Clusters as Stable and EfficientPhotocatalysts for CO2 Reduction, INORGANIC CHEMISTRY, 2021, 60(10): 7364-7371, SCI, IF=5.165. | | | | 35 | 1.14E+09 | 张青青 | 材料科学与工程 | 李金洪 | 六级481 | [1] Study on preparation and printing evaluation of composite aromatic expansionmicrosphere ink. EI会议论文:11th China academic conference on printing andpacking, CACPP 2020.[2] 石蜡@SiO2储能相变微胶囊的制备及印刷应用。数字印刷,2021, (3): 85-91.[3] EI接收未见刊:Preparation and Properties of High Coating Rate Phase ChangeInsulation Microcapsules. 会议论文lecture notes in electrical engineering,2021.8.30接受[4] SCI在投:Construction of visible light absorption heat storage slurry using phasechange microcapsules for solar thermal utilization[J]. Applied Surface Science.2022.3.3在投(editor assigned), IF=6.707.[5] EI在投:复合型微胶囊的制备及油墨化应用[J].材料导报.2021.10.29评审 | 须在2022年5月31日前online,否则取消录取资格 | | 36 | 1.14E+09 | 张有鹏 | 材料科学与工程 | 张娜 | 六级442 | Surface modification of silica micro-powder by titanate coupling agent and itsutilization in PVC based composite, CONSTRUCTION AND BUILDING MATERIALS,2021, 307, 124933, SCI, IF=6.141. | | | 37 | 1.14E+09 | 赵全有 | 材料科学与工程 | 佟望舒 | 六级473 | [1] Piezoelectric polarization assisted WO3/CdS photoanode improved carrierseparation efficiency via CdS phase regulation, INTERNATIONAL JOURNAL OFHYDROGEN ENERGY. 2021, 46(73): 36113-36123, SCI, IF=5.816.[2] The collaborative mechanism of surface S-vacancies and piezoelectricpolarization for boosting CdS photoelectrochemical performance, ChemicalEngineering Journal. 2022, 433(2), 133226, SCI, IF=13.273. | | | 38 | 1.14E+09 | 朱兵 | 材料科学与工程 | 刘艳改 | 六级464 | ZnOHF/N-doped carbon hybrids as a novel anode material for enhanced lithiumstorage, JOURNAL OF ALLOYS AND COMPOUNDS. 2021, 889, 161705, SCI,IF=5.316. | | | 39 | 1.14E+09 | 朱欣宇 | 材料科学与工程 | 房明浩 | 六级472 | [1] Preparation of full tailings-based foam ceramics and auxiliary foaming effect ofvanadium-titanium magnetite tailings, JOURNAL OF NON-CRYSTALLINE SOLIDS.2021, 571, 121063, SCI, IF=3.531.[2] Investigating the performance of oxalic acid for separating bastnaesite fromcalcium-bearing gangue minerals based on experiment and theoretical calculation,MINERALS ENGINEERING. 2021, 170, 107047, SCI, IF=4.765.[3] Adsorption of ferric ions on the surface of bastnaesite and its significance inflotation, MINERALS ENGINEERING. 2020, 158, 106588, SCI, IF=4.765. | | |
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发表于 2022-4-27 16:46:48
