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2024年bg大游官网官方平台研究生国家奖学金推荐名单公示

创建时间:  2024年09月29日 13:03  忻娜    浏览次数:


  经学生本人申请,导师推荐,学院初审后,学院成立由主要领导任主任委员,分管研究生工作的学院领导、导师代表、研究生教学管理人员代表、研究生代表为委员的奖学金评审委员会于2024929日对申报材料进行评审,现将2024bg大游官网官方平台研究生国家奖学金拟推荐候选人名单公示如下,公示期从2024929日至20241010日,如有异议,请与评审委员会联系,电话66136261

【博士推荐候选人名单如下】

序号姓名专业学号平均成绩代表性科研成果科研分明细科研计分备注
1许鑫和080502 材料学2182002787.171、《Ameliorating dilution of Cr and Ni and improving PWSCC resistance of 52  M overlay by hot wire plasma arc cladding》,《Journal of Materials Research and Technology》,31,无,第一作者,1392-1408,期刊论文,已发表,2024,已认定,一区,6.2
2、《Effect of material chemical composition on oxidation and stress corrosion  cracking of the submerged arc welding Alloy 52M overlay in a simulated  PWR primary water》,《Journal of Nuclear Materials》,588,第一作者,154753,期刊论文,已发表,2024,已认定,一区,2.8
3、《Nano-micrometer scale characterization of PWSCC crack tips in the transition zone of 52M overlay and the implication to intergranular cracking》,《Journal of Nuclear Materials》,第一作者,期刊论文,已发表,2024,已认定,一区,2.8
4、《Assessing the influence of welding-induced mechanics on oxidation and stress corrosion cracking in an Alloy 600-Alloy 152 M weldment under simulated PWR primary water》,《Journal of Nuclear Materials》,601,无,第一作者,155349,期刊论文,已发表,2024,已认定,一区,2.8
5、《Effects of Matrix and Dendrite Boundary Composition on Stress Corrosion Cracking Performance of Alloy 52M Buttering Layer in Simulated Pressurized Water Reactor Primary Water》,《Corrosion》,80,1,第三作者,68-84,期刊论文,已发表,2023,已认定,四区,1.6
6、《Macroscopic and microscopic element distribution in transition zones of GTAW Alloy 52M weld joint and its PWSCC growth behaviour》,《Journal of Nuclear Materials》,601,无,第二作者,155308,期刊论文,已发表,2024,已认定,一区,2.8
7、《Determining SCC resistance of stainless steel claddings in high- temperature water by constant load crack growth tests and slow strain rate tests》,《Journal of Nuclear Materials》,588,无,第二作者,154796,期刊论文,已发表,2024,已认定,一区,2.8
4(1,SCI一区)
2(2,SCI一区)
1(3,SCI四区)
158.7正选
2张丛江080602 钢铁冶金21820077861、《The influence of cyclic creep on the long-term oxidation behavior of a directionally-solidified nickel-based superalloy》,《Journal of Materials Research and Technology》,32,第一作者,3147-3160,期刊论文,已发表,2024,已认定,一区,6.2
2、《Tilting Dynamics and Parameter Dependence  of the Dendrite Array Under a Transverse Magnetic  Field: A Unified Magnetic Field-Based Phase-Field  Study》,《Metallurgical and Materials Transactions A》,55,1,第一作者,500-512,期刊论文,已发表,2023,已认定,三区,2.8
3、《Study on the dendritic growth and grain boundary formation in the suddenly expanded cross-section of single crystal superalloy during directional solidification process》,《Journal of Manufacturing Processes》,127,1,第一作者,764-778,期刊论文,已发表,2024,已认定,一区,6.1
4、《Effects of longitudinal magnetic field on primary dendrite spacing and  segregation of directionally solidified single crystal superalloy》,《Progress in Natural Science: Materials International》,34,1,校内核心,第一作者,26-36,期刊论文,已发表,2024,已认定,二区,4.8
5、《Optimization of grain-selection behavior in the spiral selector during Cusp-magnetic field-assisted directional solidification of single-crystal superalloy》,《Journal of Materials Research and Technology》,29,1,第一作者,1025-1039,期刊论文,已发表,2024,已认定,一区,6.2
6、《Study on the homogeneity of tilted dendritic  structures in single crystal superalloys》,《Journal of Materials Research and Technology》,27,1,第二作者,1128-1145,期刊论文,已发表,2023,已认定,一区,6.4
7、《Effect of magnetic field configuration on stray-crystal formation with different  platform sizes during directional solidification of single crystal superalloy》,《Acta Metallurgica Sinica (English Letters)》,37,1,第二作者,904-914,期刊论文,已发表,2023,已认定,二区,3.5
8、《Understanding the formation and evolution of low-angle grain boundaries  in Nickel-Based single crystal superalloys》,《Materials Characterization》,209,1,第二作者,113733,期刊论文,已发表,2024,已认定,一区,4.8
9、《Revealing the Influential Mechanism of the Direct Current on Columnar-to-Equiaxed Transition in Directionally Solidified Al–15Sn–1Cu Alloy Under 10 T Magnetic Field》,《Metallurgical and Materials Transactions B》,55,1,第二作者,1367-1384,期刊论文,已发表,2024,已认定,二区,2.4
3(1,SCI一区)
1(1,SCI二区)
1(1,SCI三区)
2(2,SCI一区)
2(2,SCI二区)
158正选
3孙晗080602 钢铁冶金21820075891、《Phosphorus removal properties of the Fe-C-Si-Mn-P-S metallic melts based on the atom-molecule coexistence theory: mutual verification by industrial and laboratorial experiments》,《METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE》,55,3,第一作者,1869-1880,期刊论文,已发表,2024,已认定,二区,2.4
2、《Insight into the TiO2 on transport behavior and heat transfer of the CaO-SiO2-FeO-MgO system at different basicities: molecular dynamics simulation and thermodynamics》,《CERAMICS INTERNATIONAL》,第一作者,期刊论文,已发表,2024,已认定,一区,5.1
3、《Insight into the structure and transport properties of CaO-SiO2-P2O5 system during the phosphorus enrichment process: A molecular dynamics simulation》,《JOURNAL OF NON-CRYSTALLINE SOLIDS》,627,1,第一作者,122818,期刊论文,已发表,2024,已认定,二区,3.2
4、《Influence of the Basicity on Phosphorus Enrichment Properties of Decarbonization Slag in Low-Carbon Double Slag Converter Steelmaking Process with Industrial Experiments, Mineralogy, and Ion-molecule Coexistence Theory》,《STEEL RESEARCH INTERNATIONAL》,95,6,第一作者,2300853,期刊论文,已发表,2024,已认定,三区,1.9
5、《Composition engineering on the structure and transport properties of CaO-SiO2-P2O5 system: a computational insight》,《METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE》,55,3,第一作者,1812-1829,期刊论文,已发表,2024,已认定,二区,2.4
6、《一种同时提高低碳双渣法转炉炼钢脱磷期脱磷率和倒渣率的方法》,专利,导师第一作者,本人第二作者,申请,2024-02-18,202410180292.5
7、《一种不同温度下双渣法转炉炼钢富磷能力和流动性优异的脱磷渣及脱磷方法》,专利,第三作者,已授权,2024-05-10,202410180425.9
8、《一种双渣法转炉炼钢的脱磷方法》,专利,第三作者,申请,2024-02-18,202410180413.6

1(1,SCI一区)
3(1,SCI二区)
1(1,SCI三区)
1(2,导一,专利申请)
1(3,导一,专利申请)
1(3,导一,专利授权)
117.8正选
4朱合法080503 材料加工工程2182006884.171、《Structural stability and electrical properties of (1-x)(Bi0.5Na0.5)  TiO3-xBaTiO3 ceramic coatings》,《Ceramics International》,50,7,第一作者,10560-10573,期刊论文,已发表,2024,已认定,一区,5.1
2、《Electric-field-dependent electrical properties and domain switching of  0.92BNT-0.08BT ceramic coatings》,《Ceramics International》,0272,8842,第一作者,期刊论文,已发表,2024,已认定,一区,5.1
3、《Evolution of microscopic domain structure and macroscopic properties of (1-x)(Bi0.5Na0.5)TiO3-xBaTiO3 ceramic coatings》,《Journal of Alloys and Compounds》,第一作者,期刊论文,录用,2024,二区,5.8
4、《钛酸铋钠基无铅压电陶瓷掺杂改性研究现状》,《中国表面工程》,37,3,中国科技论文统计源期刊目录(科技引证),中文核心期刊要目总览(北大目录),第一作者,1-10,期刊论文,已发表,2024,已认定,四区,0.8
2(1,SCI一区)
1(1,SCI二区)
1(1,SCI四区)
105正选
5李婷婷080602 钢铁冶金2182007390.331、《Effect of Al content on nanoprecipitates, austenite grain growth and toughness in coarse-grained heat-affected zones of Al-Ti-Ca deoxidized shipbuilding steels》,《International Journal of Minerals, Metallurgy and Materials》,中国科技论文统计源期刊目录(科技引证),第一作者,期刊论文,录用,2024,二区,5.6
2、《Development in oxide metallurgy for improving the weldability of high-strength low-alloy steel—Combined deoxidizers and microalloying elements》,《International Journal of Minerals Metallurgy and Materials》,31,6,中国科技论文统计源期刊目录(科技引证),第一作者,1263-1284,期刊论文,已发表,2024,已认定,二区,5.6
3、《Inclusions and microstructures in coarse-grained heat-affected zone of Al–Ti–Ca deoxidized shipbuilding steels with different Al contents after high-heat input welding》,《Journal of Materials Research and Technology》,30,5,第一作者,174-186,期刊论文,已发表,2024,已认定,一区,6.2
4、《Mg脱氧的氧化物冶金技术》,《第十四届中国钢铁年会》,导师第一作者,本人第二作者,2023-10
5、《一种大线能量焊接用钙处理厚钢板及其制造方法》,专利,导师第一作者,本人第二作者,申请,2024-02-20,202410187043.9
6、《一种提高大线能量焊接用钙处理厚钢板及其制造方法》,专利,导师第一作者,本人第二作者,申请,2024-02-20,2024101870602
7、《一种热轧板表面条状缺陷的非水定量电解分析方法》,专利,第三作者,申请,2024-02-18,202410180269.6
8、《一种大线能量焊接热影响区韧性优异的钙处理厚钢板及其制造方法》,专利,第三作者,申请,2024-02-20,202410187029.9
1(1,SCI一区)
2(1,SCI二区)
1(2,导一,国内会议论文)
2(2,导一,专利申请)
2(3,导一,专利申请)
88.2正选
6田丰080601 冶金物理化学21820085851、《Tailored Electrosynthesis of Highly Porous Ti3SiC2‑Derived Carbon Anodes with Excellent Lithium Storage Properties》,《ACS Sustainable Chemistry & Engineering》,第一作者,期刊论文,已发表,2023,已认定,一区,8.4
2、《Tailoring Oxygen-Depleted and Unitary Ti3C2Tx Surface Terminals by Molten Salt Electrochemical Etching Enables Dendrite-Free Stable Zn Metal Anode》,《ANGEWANDTE CHEMIE-INTERNATIONAL EDITION》,e202408996,e202408996,第一作者,期刊论文,已发表,2024,已认定,一区,16.1
3、《A Sustainable Molten Salt Leaching-Electrodeposition Route Toward Converting Rice Husks into Functional Silicon Nanowires and Porous Carbon》,《ACS SUSTAINABLE CHEMISTRY & ENGINEERING》,12,18,第三作者,期刊论文,已发表,2024,已认定,一区,7.1
4、《One-step Synthesis of Organic Terminal 2D Ti3C2Tx MXene Nanosheets by Etching of Ti3AlC2 in an Organic Lewis Acid Solvent》,《ANGEWANDTE CHEMIE-INTERNATIONAL EDITION》,63,e202405315,第二作者,期刊论文,已发表,2024,已认定,一区,16.1
5、《Oriented-Electrochemical Etching of Zn Crystal Edges in Deep Eutectic Solvent for Enhancing Stability and Reversibility of Zn Anodes》,《ADVANCED FUNCTIONAL MATERIALS》,e2403305,e2403305,第二作者,期刊论文,已发表,2024,已认定,一区,18.5
2(1,SCI一区)
2(2,SCI一区)
1(3,SCI一区)
84正选
7孙光岩080502 材料学2282032588.431、《Microstructures and compositions of nano-precipitates and reverted austenite in custom 455 stainless steel in over-aged condition studied by transmission electron microscopy and atom probe tomography》,《Materials Characterization》,215,114152,第一作者,期刊论文,已发表,2024,已认定,一区,4.8
2、《Characterization of nano-precipitates in custom 455 stainless steel by  transmission electron microscopy and atom probe tomography》,《MATERIALS CHARACTERIZATION》,205,113308,第一作者,期刊论文,已发表,2023,已认定,一区,4.7
3、《Atom probe characterization of Cu-rich precipitates in different phases of 15–5 PH stainless steel in over-aged condition》,《Materials Characterization》,191,112184,第三作者,期刊论文,已发表,2022,已认定,一区,4.537
4、《precipitation strengthening behavior of custom 455 stainless steel during tempering at 420 ℃》,《Materials Science and Technology》,第二作者,期刊论文,录用,2024,四区,1.7
2(1,SCI一区)
1(3,SCI一区)
1(2,SCI四区)
80.1候补



【硕士推荐候选人名单如下】

序号姓名专业学号平均成绩代表性科研成果科研分明细科研计分备注
1肖融彬080500 材料科学与工程2372233291.361、《The effect of organophosphorus flame retardants on the combustion  behavior and performance of poly (methyl methacrylate)》,《REACTIVE & FUNCTIONAL POLYMERS》,198,第一作者,105890,期刊论文,已发表,2024,已认定,二区,4.5
2、《The effects of temperature and hygrothermal aging on the properties of CF/PA6 composite and its compression failure mechanisms》,《Polymer Composites》,45,12,导师第一作者,本人第二作者,10775-10787,期刊论文,已发表,2024,已认定,二区,4.8
3、《Effects of carbon nanomaterials on the interfacial properties of carbon fiber reinforced epoxy resin composite》,《Polymer Composites》,第二作者,期刊论文,已发表,2024,已认定,二区,4.8
4、《Residual strength and failure mechanism of CF/PPS composites with delamination damage》,《Polymer Composites》,45,13,第二作者,12391-12404,期刊论文,已发表,2024,已认定,二区,4.8
2(1,SCI二区)
1(2,SCI二区,导1)
1(2,SCI二区)
50正选
2胡珍080502 材料学22722352901、《High strength and ductility high-entropy intermetallic matrix composites reinforced with in-situ hierarchical TiB2 particles》,《Composites Part B: Engineering》,283,15,第一作者,111556,期刊论文,已发表,2024,已认定,一区,12.7
2、《Electron beam powder bed fusion enables crack-free, high-strength and sufficiently ductile chemically complex intermetallic alloys》,《Virtual and Physical Prototyping》,19,1,第二作者,2356733,期刊论文,已发表,2024,已认定,一区,10.2
1(1,SCI一区)
1(2,SCI一区)
41正选
3张力080502 材料学2272235691.151、《Microstructure characterization and properties of CuFeCo heterostructure alloys》,《Journal of Materials Research and Technology》,33,无,第一作者,806-820,期刊论文,已发表,2024,一区,6.2
1(1,SCI一区)38正选
4王晨辉080503 材料加工工程22722427871、《Revealing the effect of annealing at Tg on the crystal growth in Au49Ag5.5Pd2.3Cu26.9Si16.3 metallic glass via nanocalorimetry》,《Thermochimica Acta》,740,179835,第一作者,期刊论文,已发表,2024,已认定,二区,3.1
2、《Effect of cooling rate on the crystallization behaviors of Mg65Zn30Ca5 metallic glass composites》,《Intermetallics》,169,第一作者,108295,期刊论文,已发表,2024,已认定,二区,4.3
3、《Effect of annealing at Tg on the crystallization behaviors of Au49Ag5.5Pd2.3Cu26.9Si16.3 metallic glass revealed by nanocalorimetry》,《Thermochimica Acta》,731,第二作者,179643,期刊论文,已发表,2024,已认定,二区,3.1
4、《Preparation of Cu Powders with Electrical Explosion of Wires and Their Size-Dependent Mechanical Properties》,《Additive Manufacturing and Innovative PowderWire Processing of Multifunctional Materials》,第一作者,2024-02,EI,已认定
5、《一种获取金属粉末内部组织的方法》,专利,导师第一作者,本人第二作者,申请,2023-12-05,CN202311652537.1
2(1,SCI二区)
1(2,SC二区)
1(1,EI)        
1(2,专利申请,导1)
55正选
5周佳怡080503 材料加工工程2272244384.771、《Microstructure details and impact toughness for dissimilar 9Cr/CrMoV  welded joints fabricated by NG-SAW and NG-TIG techniques》,《Journal of Materials Research and Technology》,29,29,第一作者,期刊论文,已发表,2024,已认定,一区,6.2
2、《Uncovering the mechanism of the LME susceptibility for the galvanized and electrogalvanized DP 1180 steels》,《Materials Today Communications》,38,108530,第一作者,期刊论文,已发表,2024,已认定,三区,3.7
3、《Interfacial microstructure characteristics and failure mechanism of the laser welding-brazing steel-Al joints with various welding parameters》,《Journal of Materials Research and Technology》,31,31,第三作者,期刊论文,已发表,2024,已认定,一区,6.2
4、《Role of Si element in the IMC formation and tensile-shear property of the  laser welding-brazing steel-Al dissimilar joints》,《Materials Letters》,375,137274,第二作者,期刊论文,已发表,2024,已认定,四区,2.7
5、《Effect of Hydrogen Concentration and Residual Stress on the Delayed Cracking Performance of the 22MnB5 Hot Roll Bending Pipe》,《2024 TMS Annual Meeting & Exhibition》,第三作者,2023-10,EI,已认定
1(1,SCI一区)
1(1,SCI三区)
1(3,SCI一区)
1(2,SCI四区)
1(3,EI)
52.7正选
6李伯龙080500 材料科学与工程23722386891、《Interfacial microstructure characteristics and failure mechanism of the laser  welding-brazing steel-Al joints with various welding parameters》,《Journal of Materials Research and Technology》,31,31,第一作者,2498-2507,期刊论文,已发表,2024,已认定,一区,6.2
2、《Role of Si element in the IMC formation and tensile-shear property of the  laser welding-brazing steel-Al dissimilar joints》,《Materials Letters》,375,375,第一作者,137274,期刊论文,已发表,2024,已认定,四区,2.7
1(1,SCI一区)
1(1,SCI四区)
45正选
7蔡哲宇080503 材料加工工程22722490911、《Stability of oxide crucibles and implications for the fabrication of Zr-based bulk metallic glass master alloys》,《Ceramics International》,34,3,导师第一作者,本人第二作者,7697-7707,期刊论文,已发表,2024,已认定,一区,5.1
2、《Effect of Kaolin/TiO2 Additions and Contact Temperature on the Interaction between DD6 Alloys and Al2O3 Shells》,《Metals》,14,2,导师第一作者,本人第二作者,164,期刊论文,已发表,2024,已认定,三区,2.6
3、《A comparative study on the corrosion of Al2O3, MgO and BaZrO3 refractory  by TiZrNbV high-entropy alloy》,《Ceramics International》,49,23,第三作者,37464 - 37474,期刊论文,已发表,2023,已认定,一区,5.2
1(2,SCI一区,导1)
1(2,SCI三区,导1)
1(3,SCI一区,导1)
51正选
8沈国灿080503 材料加工工程2272248888.461、《Regulation of microstructure to enhance CO2 permeation in  Ce1-xGdxO2-δ-molten carbonate dual-phase membranes》,《Separation and Purification Technology》,无,-,第一作者,暂无,期刊论文,已发表,2024,已认定,一区,8.1
2、《Thermochemical and mechanical properties of  Ce0.9Pr0.1O2-
δ-Pr0.6Sr0.4Fe0.9Al0.1O3-δ dual-phase membrane》,《Journal of the European Ceramic Society》,44,11,第三作者,0955-2219,期刊论文,已发表,2024,一区,5.8
3、《Structure stability and CO2 absorption mechanism on surfaces of B-site doped SrFeO3-
δ perovskite ceramic membrane》,《Ceramics International》,暂无,暂无,第二作者,暂无,期刊论文,录用,2024,一区,5.1
4、《A co-doped strategy for simultaneously improving oxygen permeability and  stability of BaCoO3-
δ ceramic membrane》,《Journal of Membrane Science》,705,-,第二作者,期刊论文,已发表,2024,已认定,一区,8.4

1(1,SCI一区)
2(2,SCI一区)
1(3,SCI一区)
46正选
9梁元鑫080503 材料加工工程2272248489.461、《Strong magnetic and ultrasonic fields enhanced the leaching of Ga and Ge from zinc powder replacement residue》,《SEPARATION AND PURIFICATION TECHNOLOGY》,330,第一作者,125572,期刊论文,已发表,2023,已认定,一区,8.6
2、《Magnetic-Controlled Short Process Preparation Technique for Phosphor Bronze Based on Structure Refinement》,《METALLURGICAL AND MATERIALS TRANSACTIONS A》,55,6,第三作者,期刊论文,已发表,2024,已认定,三区,2.2
3、《High strength and excellent softening resistance Cu–15Ni–8Sn alloy by Ti addition》,《Journal of Materials Research and Technology》,30,2238-7854,第二作者,期刊论文,已发表,2024,已认定,一区,6.2
4、《一种可伸缩式超声装置与冶金反应装置》,专利,第三作者,申请,202410100528X
1(1,SCI一区)
1(2,SCI一区)
1(3,SCI三区)
1(3,专利申请)
42.2正选
10张曼085600 材料与化工2272258190.731、《A comparative study on the corrosion of Al2O3, MgO and BaZrO3 refractory by TiZrNbV high-entropy alloy》,《CERAMICS INTERNATIONAL》,第一作者,期刊论文,已发表,2023,已认定,一区,5.2
2、《Stability of oxide crucibles and implications for the fabrication of Zr-based bulk metallic glass master alloys》,《Ceramics International》,第三作者,期刊论文,已发表,2024,已认定,一区,5.1
3、《Effect of Kaolin/TiO2 Additions and Contact Temperature on the  Interaction between DD6 Alloys and Al2O3 Shells》,《metals》,14,2,第三作者,期刊论文,已发表,2024,已认定,三区,2.6
1(1,SCI一区)
1(3,SCI一区)
1(3,SCI三区)
41正选
11韦晓顺080903 微电子学与固体电子学2272227483.081、《Room temperature detection of n-butanol Ce-doped MOF:ZnO sensor under UV activation》,《Ceramics International》,第一作者,期刊论文,已发表,2024,已认定,一区,5.1
2、《UV-enhanced Mg:MOF-ZnO sensor for n-butanol gas detection at a lower operating temperature》,《Applied Surface Science》,第一作者,期刊论文,已发表,2024,已认定,二区,6.3
1(1,SCI一区)  
1(1,SCI二区)
60正选
12陈靖坤085400 电子信息2272263186.671、《Preparation and Application of Nanostructured ZnO in Radiation Detection》,《Materials》,17,14,第一作者,期刊论文,已发表,2024,已认定,三区,3.1
2、《Hydrothermal Growth of Double-Layer ZnO:Sc for X-ray Imaging Application》,《Crystal Growth & Design》,/,/,第一作者,期刊论文,已发表,2024,已认定,一区,3.2
3、《UV-light enhanced gas sensor based on Ga doped ZnO for ultra-high sensitive and selective n-butanol detection》,《Applied Surface Science》,641,/,第二作者,期刊论文,已发表,2023,已认定,二区,6.7
4、《ZnO:Sc微米晶及其聚合物闪烁屏的制备方法和应用》,专利,导师第一作者,本人第二作者,申请,2023-09-22,2023112348503
1(1,SCI一区)  
1(1,SCI三区)  
1(2,SCI二区)    
1(2,专利申请,导1)
53正选
13梁淏080501 材料物理与化学2272230685.771、《Effect of micro-crystallization on near-infrared shielding performance of Li0.09K0.23WO3 doped glass for energy-saving window》,《Ceramics International》,Volume 50,Issue 9,导师第一作者,本人第二作者,14625-14630,期刊论文,已发表,2024,已认定,一区,5.1
2、《Ultralow dispersion and broadband gradient refractive index microlens arrays imprinted in chalcohalide glass by microthermal poling》,《Ceramics International》,Volume 50,Issue 5,第三作者,7506-7513,期刊论文,已发表,2024,已认定,一区,5.1
3、《一种近红外全波段屏蔽的亚铁掺杂无色高透硅酸盐节能玻璃及其制备方法》,专利,导师第一作者,本人第二作者,申请,2024-01-12,202410052065.4
1(2,SCI一区,导1)            
1(3,SCI一区,导1)            
1(2,专利申请,导1)
43正选
14沈章盼080502 材料学2272231888.771、《Advancing piezoelectricity and excellent thermal stability: <001>-textured 0.75BF–0.25BT lead-free ceramics for high temperature applications》,《Journal of Materiomics》,第一作者,期刊论文,录用,2024,,一区,8.4
2、《Improved dielectric and piezoelectric thermal stability by chemical  homogenization in CuO-modiffed 0.75BiFeO3-0.25BaTiO3 piezoceramics》,《Ceramics International》,50,1,第二作者,1187-1192,期刊论文,已发表,2024,一区,5.1
1(1,SCI一区)  
1(2,SCI一区)
41正选
15陶安东070305 高分子化学与物理2272226086.921、《Sn Nanoclusters Confined in COP-Derived Carbon for Catalytic Oxygen Reduction Reaction》,《Advanced Sustainable Systems》,暂无,暂无,第一作者,期刊论文,已发表,2024,已认定,三区,6.5
2、《Bismuth Nanoparticles and Single Iron Atoms on Carbon Derived from a Covalent Organic Framework Synergistically Catalyze the Oxygen Reduction Reaction》,《CHEMISTRY-A EUROPEAN JOURNAL》,暂无,暂无,第一作者,期刊论文,已发表,2024,已认定,二区,3.9
3、《Heterogeneous Fenton catalytic degradation of organic dyes and the optimization using the central composite design - Response surface methodology》,《INORGANIC CHEMISTRY COMMUNICATIONS》,167,1387-7003,第三作者,期刊论文,已发表,2024,已认定,三区,4.4
4、《一种腈纶纤维负载 FeMOF 材料及其制备方法和应用》,专利,第三作者,申请,2024-10-31,CN202311330404.2
1(1,SCI二区)
1(1,SCI三区)
1(3,导1,SCI三区)
1(3,导1,专利申请)
35.6正选
16赵雨薇080503 材料加工工程2272241589.081、《Effects of rare earth on nitriding microstructure and properties of a La-Ce micro-alloyed Q235RE steel》,《Surface & Coatings Technology》,493,第一作者,期刊论文,已发表,2024,已认定,一区,5.3
2、《42CrMo钢扫描电子束表面硬化特性研究》,《2024年中国(国际)光整加工技术及表面工程学术会议》,第一作者,2024-08,已认定
1(1,SCI一区)
1(1,国际会议)
40候补






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