当前位置: 首页 >> 通知公告 >> 研究生 >> 正文

2025年材料学院研究生国家奖学金推荐名单公示
创建时间:  2025年09月30日 10:15  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2025930日对申报材料进行评审,现将2025材料学院研究生国家奖学金拟推荐候选人名单公示如下,公示期从2025930日至20251013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】

序号姓名专业学号培养类别平均成绩代表性科研成果科研明细科研分备注
1常麟晖080601 冶金物理化学22820329博士研究生911、《Manipulating Bilateral Interface Chemistry via Multifunctional Salt Additive for Durable Aqueous Zinc Batteries》,《ACS Nano》,19,19,第一作者,27424−27439,期刊论文,已发表,2025,已认定,一区,16
2、《High-entropy solvation chemistry towards affordable and practical Ah-level zinc metal battery》,《nature communications》,16,16,第一作者,6134,期刊论文,已发表,2025,已认定,一区,15.7
3、《Harnessing Stable Electrode–Electrolyte Interface/Interphase Dynamics via Electrolyte Additives: Rationalized Pathways to Practical Aqueous Zinc-Ion Batteries》,《small》,0,0,第一作者,07546,期刊论文,已发表,2025,已认定,二区,12.1
4、《Advanced high-entropy halogenated electrolyte enabling  ultralow-overpotential and long-cycling aqueous zinc batteries》,《Materials Today Energy》,53,0,第一作者,102014,期刊论文,已发表,2025,已认定,二区,8.6
5、《Innovative Zinc Anodes: Advancing Metallurgy Methods to Battery Applications》,《small》,20,52,第一作者,期刊论文,已发表,2024,已认定,二区,13
6、《Functional group engineering in electrolyte additives toward highly stable  zinc-ion batteries》,《Energy Storage Materials》,81,81,第三作者,104518,期刊论文,已发表,2025,已认定,一区,20.2
7、《Fundamental understanding of texturingelectrodeposition metal zinc anodes for practical aqueousZn‐ion batteries》,《Eco Energy》,3,2,第三作者,296,期刊论文,已发表,2024,已认定
8、《Terminal active oxygen enriched LDHs with zincophilic sites as a versatile  interface layer for highly reversible zinc metal anodes》,《Materials Today Energy》,51,0,第二作者,101889,期刊论文,已发表,2025,已认定,二区,8.6
9、《Effects of F− ions on the electrochemical and interface behavior of cathodes in zinc electrowinning》,《JOURNAL OF ELECTROANALYTICAL CHEMISTRY》,939,939,第二作者,117480,期刊论文,已发表,2023,已认定,三区,4.5
2(1,SCI一区)
3(1,SCI二区)
1(3,SCI一区)
1(2,SCI二区)
1(2,SCI三区)		150正选
2张文涛080503 材料加工工程22820283博士研究生87.431、《Influence of interfacial segregation of Sn microalloying on internal oxidation of Fe-Mn-Si based alloys》,《Journal of Iron and Steel Research International》,中国科技论文统计源期刊目录(科技引证),校内核心,第一作者,期刊论文,录用,2025,二区
2、《Investigation of Si, Mn, and C interactions during coiling of hot rolling model alloys》,《MATERIALS CHARACTERIZATION》,第一作者,期刊论文,已发表,2024,已认定,一区,4.8
3、《Effect of Al on Surface Oxide Scale and Internal Oxidation in Hot-Rolled Coil of Fe–Mn–Si-Based Alloys》,《Metallurgical and Materials Transactions B》,无,无,第一作者,期刊论文,已发表,2025,已认定,二区,3.1
4、《Insights into the effect of Cr on interfacial and grain boundaries oxidation in Fe-Mn-Si-based alloys》,《Corrosion Science》,2024,112638,第一作者,期刊论文,已发表,2024,已认定,一区,7.4
5、《Influence of the warped scale on the internal oxidation of hot-rolled Si-Mn high-strength steels》,《vacuum》,233,113915,第一作者,期刊论文,已发表,2024,已认定,二区,3.8
6、《Mechanism of Cr on the Oxidation Behavior of Advanced High-Strength Steel during the Hot Rolled Coil Process》,《Materials Today Communications》,112445,46,第二作者,期刊论文,已发表,2025,已认定,三区,4.5
3(1,SCI二区)
2(1,SCI一区)
1(2,SCI三区)		145正选
3张乐080601 冶金物理化学23820355博士研究生90.141、《Molecular engineering of D-glucuronamide additive directs (100)-oriented Zn deposition for ultra-stable zinc-ion batteries》,《Energy Environmental & Science》,18,15,第一作者,7555-7567,期刊论文,已发表,2025,已认定,一区,30.8
2、《Tyrosine additives with rich-polar functional groups provide multi-protections for ultra-stable zinc metal anodes》,《Energy Storage Materials》,75,104022,第一作者,期刊论文,已发表,2025,已认定,一区,20.2
3、《Functional group engineering in electrolyte additives toward highly stable zinc-ion batteries》,《Energy Storage Materials》,81,104508,第一作者,期刊论文,已发表,2025,已认定,一区,20.2
3(1,SCI一区)114正选
4叶水鑫080601 冶金物理化学22820350博士研究生85.431、《Continuous structural evolution of deadman coke in the hydrogen-rich blast furnace: Insights from full-scale dissection》,《POWDER TECHNOLOGY》,467,15,第一作者,期刊论文,已发表,2025,已认定,二区
2、《Dissection of hydrogen-rich blast furnace: Continuous evolution in properties and microstructure of coke in lump zone》,《International Journal of Hydrogen Energy》,105,105,第一作者,565-574,期刊论文,已发表,2025,已认定,二区,8.3
3、《New insights into the influence of hydrogen on important parameters of blast furnace》,《JOURNAL OF CLEANER PRODUCTION》,425,425,第一作者,期刊论文,已发表,2023,已认定,一区,11.1
4、《Behavior of alkali metals in lump zone coke under hydrogen-rich blast furnace conditions based on liquid nitrogen-quenching and dissection》,《JOM》,第一作者,期刊论文,录用,2025,三区
5、《Effect of temperature on microstructure and performance of lightweight aggregate prepared from steel mill sludge and fly ash》,《Ironmaking & Steelmaking》,第二作者,期刊论文,录用,2025,三区,2.2
6、《Dissection of hydrogen-rich blast furnace: The continuous reduction and phase migration mechanism of sinter in lumpy zone》,《Renewable and Sustainable Energy Reviews》,212,212,第二作者,期刊论文,已发表,2025,已认定,一区,16.3
7、《一种轻量化六铝酸钙-镁铝尖晶石耐火材料及其制备方法》,专利,第三作者,申请,2024-01-05,CN202311284498.4
8、《富氢高炉炉缸渣铁流动阻力指数评估炉缸活跃性的方法》,专利,第二作者,申请,2025-05-14,CN202510621381.3
1(1,SCI一区)
2(1,SCI二区)
1(1,SCI三区)
1(2,SCI三区)
1(2,SCI一区)
1(3,专利申请)
1(2,专利申请)		98.8正选
5王亮080602 钢铁冶金22820335博士研究生90.141、《Effect of Cu on CGHAZ low-temperature impact toughness in Ca-Ti deoxidized HSLA steels after HHIW: Insights from inclusions, microstructures, and fracture analysis》,《Metallurgical and Materials Transactions B》,无,无,第一作者,期刊论文,已发表,2025,已认定,二区,3.1
2、《Insight into Ca addition on phase transformation in CGHAZ of Mg deoxidized shipbuilding steel plates with in-situ observation》,《Metallurgical and Materials Transactions B》,56,4,第一作者,3512-3532,期刊论文,已发表,2025,已认定,二区,3.1
3、《Effect of Ca Addition on Inclusions, Microstructures, and Impact Toughness of Coarse-Grained Heat-Affected Zone After High-Heat Input Welding in Mg-Deoxidized Shipbuilding Steel Plates》,《Steel Research International》,96,3,第一作者,202400539,期刊论文,已发表,2025,已认定,三区,2.5
4、《Fracture mechanisms of CGHAZ for Mg and Ca-Mg deoxidized HSLA steels after HHIW based on microstructures, crack behaviors and mechanical properties》,《Journal of Iron and Steel Research International》,无,无,中国科技论文统计源期刊目录(科技引证),校内核心,第一作者,期刊论文,已发表,2025,已认定,二区,3.6
5、《Insight into Cu on precipitates, PAG growth and impact toughness of CGHAZ for Ca-Ti deoxidized HSLA steels after HHIW》,《Metallurgical and Materials Transactions B》,无,无,第一作者,期刊论文,已发表,2025,已认定,二区,3.1
4(1,SCI二区)
1(1,SCI三区)		98正选
6毛露080601 冶金物理化学22820349博士研究生86.291、《The microstructural development and erosion mechanism of   BaZrO<sub>3</sub>/Al<sub>2</sub>O<sub>3</sub> double ceramics by   Ti-46Al-8Nb alloy melt》,《JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T》,33,33 (2024),第一作者,4215-4225,期刊论文,已发表,2024,已认定,二区,6.2
2、《Microstructure evolution and stability of BaZrO3/Y2O3/Al2O3 triple   ceramics interfaces in contact with highly active Ti-46Al-8Nb melts》,《SURFACE & COATINGS TECHNOLOGY》,505,-,第一作者,132067,期刊论文,已发表,2025,已认定,一区,6.1
3、《Effect of superheating on the structure and mechanical properties of Ti-46Al-8Nb alloy induction-melted in the fused BaZrO3 crucible》,《Intermetallics》,186,-,第一作者,期刊论文,已发表,2025,已认定,二区
4、《The solid-phase synthesis of high-stability SrY2O4 and comparative analysis with Y2O3 in melting Ti-46Al-8Nb alloy》,《Ceramics International》,51,19,第三作者,期刊论文,已发表,2025,已认定,二区,5.6
5、《Effect of Y alloying on microstructure and mechanical properties of   as-annealed Ti6Al4V alloys》,《JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T》,36,-,第二作者,4125-4133,期刊论文,已发表,2025,已认定,二区,6.6
6、《Formability of ABS3 Perovskites》,《JOURNAL OF PHYSICAL CHEMISTRY LETTERS》,16,-,第二作者,-,期刊论文,已发表,2025,已认定,一区,4.6
7、《Preparation of Ti-46Al-8Nb Alloy Ingots beyond Laboratory Scale Based on   BaZrO3 Refractory Crucible》,《METALS》,12,3,第二作者,524,期刊论文,已发表,2022,已认定,三区,2.695
1(1,SCI一区)
2(1,SCI二区)
1(3,SCI二区)
1(2,SCI二区)
1(2,SCI一区)
1(2,SCI三区)
93正选
7于朔080502 材料学22820319博士研究生86.291、《Facile Thiourea-Assisted Synthesis of SnO₂/SnS Heterojunctions Anchored on N/S Co-Doped Graphene Aerogel for High-Performance Sodium-Ion Battery Anodes》,《Journal of Alloys and Compounds》,第一作者,期刊论文,录用,2025,二区,6.3
2、《Porous Dual-Carbon Network Encapsulated Sno2 Anode for High-Performance Sodium-Ion Batteries》,《Journal of Power Sources》,653,237463,第一作者,期刊论文,已发表,2025,已认定,二区,7.9
3、《Gentle self-assembled freeze–thaw synthesis of graphene/SnO2 composite aerogel for sodium-ion battery anodes》,《Applied Surface Science》,707,163610,第一作者,期刊论文,已发表,2025,已认定,二区,6.9
4、《Synergistic Engineering of Ultrafine SnO₂-SnS Heterojunctions Spatially Confined within a Hierarchical Graphene Aerogel Boosts Sodium-Ion Storage》,《Journal of Alloys and Compounds》,1038,182591,第一作者,期刊论文,已发表,2025,已认定,二区,6.3
5、《Ultra-small CoxSy nanoparticles adhered to 3D-reduced graphene oxide as attractive anodes for lithium-ion batteries》,《Synthetic Metals》,311,117813,第三作者,期刊论文,已发表,2024,已认定,三区,4
6、《TaC涂层石墨在高温含Si蒸汽环境中的抗腐蚀机理研究》,《中国材料进展》,61,1473,中文核心期刊要目总览(北大目录),中国科技论文统计源期刊目录(科技引证),第三作者,期刊论文,已发表,2025,已认定
7、《Silicon vapor induced corrosion mechanisms of CVD TaC coatings on graphite substrates》,《Vacuum》,241,114677,第二作者,期刊论文,已发表,2025,已认定,二区,3.9
4(1,SCI二区)
1(3,SCI三区)
1(3,核心)
1(2,SCI二区)		92.2正选
8沙思淼080502 材料学22820294博士研究生89.291、《Efficient pathways for photogenerated charge transfer induced by Co dopants  in WO3/TiO2 nanorod arrays》,《Acta Materialia》,281,Vol.281, 2024,第一作者,期刊论文,已发表,2024,已认定,一区,8.3
2、《Enhanced Mesoporous Metal-Support Interaction through d-d Orbitals Hybridization for Advanced Hydrogen Evolution Catalysis》,《Journal of Colloid And Interface Science》,第一作者,期刊论文,录用,2025,一区,9.7
3、《Enhanced water splitting via electron coupling at CoP/Mo4P3  heterointerfaces mounted on hierarchical porous nitrogen-doped  carbon polyhedra》,《Applied Surface Science》,711,无,第二作者,期刊论文,已发表,2025,已认定,二区,6.9
4、《Design strategies for high entropy materials in water electrolysis: Enhancing activity, stability, and reaction kinetics》,《Journal of Advanced Ceramics》,281,Vol.281, 2024,第二作者,期刊论文,录用,2025,一区
2(1,SCI一区)
1(2,SCI一区)
1(2,SCI二区)		82正选
9孙光岩080502 材料学22820325博士研究生88.431、《Precipitation characteristics of second phases in Custom 455 stainless steel aged at high temperature》,《Journal of Materials Science & Technology》,无,无,第一作者,期刊论文,录用,2025,一区
2、《Effect of cold rolling on the precipitation of Custom 455 stainless steel during aging at 480 °C》,《Journal of Materials Science & Technology》,249,无,中国科技论文统计源期刊目录(科技引证),第一作者,264-274,期刊论文,已发表,2025,已认定,一区,14.3
3、《Microstructural evolution and precipitation strengthening in FV520B stainless steel aged at 470 °C》,《Journal of Materials Science & Technology》,247,无,中国科技论文统计源期刊目录(科技引证),第二作者,325-331,期刊论文,已发表,2025,已认定,一区,14.3
4、《FV520B 钢 470 ℃时效过程中析出强化研究》,《上海金属》,第二作者,期刊论文,录用,2025
2(1,SCI一区)
1(2,SCI一区)
1(2,核心)		79.6正选
10卢春阳080602 钢铁冶金22820347博士研究生86.431、《Effect of coke powder content on the recovery mechanism of pure zinc from spent zinc manganese batteries via microwave carbothermal reduction》,《Chemical Engineering Journal》,第一作者,期刊论文,已发表,2025,已认定,一区,13.2
2、《Highly efficient recovery valuable metals from spent alkaline zinc-manganese batteries via microwave carbothermal reduction》,《Journal of Environmental Chemical Engineering》,第一作者,期刊论文,已发表,2025,已认定,二区,7.2
3、《Artificial intelligence applications for predicting and optimizing blast furnace slag performance》,《IRONMAKING & STEELMAKING》,第三作者,期刊论文,已发表,2025,已认定,三区,2.2
4、《Microwave pyrolysis of rapeseed straw for low sulfur content and high heating value (HHV) solid fuel production: transformation mechanism and form of sulfur in biochar during the pyrolysis process》,《ENERGY》,第三作者,期刊论文,已发表,2025,已认定,一区,9.4
5、《Influencing Factors and Mechanisms of Zinc Recovery from Electric Arc Furnace Dust via Microwave-Assisted Carbothermic Reduction》,《Metals》,第二作者,期刊论文,已发表,2025,已认定,三区,2.5
6、《Effect of MgO and iron ore types on the reduction swelling behavior of novel cold-bonded briquettes》,《Powder Technology》,第二作者,期刊论文,已发表,2025,已认定,二区,4.6
7、《Removal of sulfurous gases during microwave pyrolysis of biomass using Cu-Y adsorption》,《Separation and Purification Technology》,第二作者,期刊论文,已发表,2025,已认定,二区,9
1(1,SCI一区)
1(1,SCI二区)
1(3,SCI三区)
1(3,SCI一区)
1(2,SCI三区)
2(2,SCI二区)		72正选
11田统帅080502 材料学22820310博士研究生85.431、《Bio-Based Phosphorus-Nitrile Flame Retardant from Vanillin for Thermoplastic Poly(Ester Ether) Elastomer: Enhanced Fire Safety and Anti-Dripping Performance》,《ACS Applied Polymer Materials》,7,16,第一作者,10645−10656,期刊论文,已发表,2025,已认定,二区,4.7
2、《Robust cross-linked polyurethane elastomers with reprocessing capabilities  and flame-retardant from renewable vanillin》,《Polymer Degradation and Stability》,234,111240,第一作者,1-12,期刊论文,已发表,2025,已认定,一区,7.4
3、《一种生物基含磷阻燃剂及其制备方法和应用》,专利,导师第一作者,本人第二作者,申请,2025-04-21,2025105005813
1(1,SCI一区)
1(1,SCI二区)
1(2,导一,专利申请)		62正选
12邓伟伦080500 材料科学与工程24820335博士研究生85.571、《Oxidation and failure mechanisms of CoCrFeNiMo HEA coatings at 1000 °C: Insights into TGO evolution and interface diffusion》,《Surface and Coatings Technology》,509,无,第一作者,132229,期刊论文,已发表,2025,已认定,一区,6.1
2、《First-principles insights into Ta-Nb ratio optimization of (CoCrNiMo)98TaxNby medium-entropy alloys》,《Physica B: Condensed Matter》,708,无,第一作者,417208,期刊论文,已发表,2025,已认定,三区,2.8
3、《一种抗高温氧化梯度涂层及其制备方法》,专利,第一作者,申请,2024-08-28,CN202411186870.2
1(1,SCI一区)
1(1,SCI三区)
1(1,专利申请)		50正选
13戴宇恒080503 材料加工工程22820296博士研究生84.861、《The Inclusion Characteristics and Mechanical Properties of M2 High-Speed Steel Treated with a Vacuum Carbon Deoxidation Process》,《metals》,14,10,第一作者,期刊论文,已发表,2024,已认定,三区,2.6
2、《Refinement mechanism of cerium addition on carbides in low-oxygen  high-speed steel》,《Journal of Materials Science & Technology》,0,0,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,已发表,2025,已认定,一区
1(1,SCI一区)
1(1,SCI三区)		48正选
14汪超080502 材料学22820290博士研究生871、《Synthesis, characterization, and biological evaluation of “Bamboo lamellar”  biomimetic hydroxyapatite》,《Ceramics International》,51,11,第一作者,14478-14489,期刊论文,已发表,2025,已认定,二区,5.6
2、《Plant xylem-inspired chitosan-gelatin scaffolds reinforced with graphene  oxide with a superior mechanical strength and hydrophilicity for bone  tissue engineering》,《International Journal of Biological Macromolecules》,319,2,第一作者,145488,期刊论文,已发表,2025,已认定,二区,8.5
3、《一种氧化石墨烯增强壳聚糖-明胶基水凝胶材料及其制备与应用》,专利,导师第一作者,本人第二作者,申请,2024-03-27,202410360057.6
4、《一种加固出土饱水糟朽骨角质文物的方法》,专利,第三作者,申请,2024-08-29,2024111990634
2(1,SCI二区)
1(2,导一,专利申请)
1(3,导一,专利申请)		46.6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明细科研分备注
1刘建麟070305 高分子化学与物理2472224289.071、《Few-layer MoS2 modified epoxy/MoS2-graphite coating: Robust solid lubrication enabling sustained tribological performance during oil lubrication failure》,《Surfaces and Interfaces》,72,/,第一作者,期刊论文,已发表,2025,已认定,二区,6.3
2、《Emergency-Ready Functional Coatings: Sustaining Friction Performance Through Oil Lubrication Failure》,《Polymers for Advanced Technologies》,36,8,第一作者,期刊论文,已发表,2025,已认定,三区,3.4
3、《Preparation of FeMOF Supported by Hydrolyzed Polyacrylonitrile Fibers and the Application in the Treatment of Dye Wastewater》,《Journal of Applied Polymer Science》,142,36,第三作者,期刊论文,已发表,2025,已认定,三区,2.8
1(1,SCI二区)
1(1,SCI三区)
1(3,SCI三区)		35正选
2刘顺070305 高分子化学与物理2372223187.071、《Facile synthesis of ferric hydroxide chelated  sand via dopamine chemistry for the degradation  of methylene blue by heterogeneous Fenton method》,《Journal of Materials Science》,60,28,第一作者,期刊论文,已发表,2025,已认定,三区,3.9
2、《Preparation of ferric hydroxide chelated glass fiber modified with dopamine chemistry for effective degradation of organic dyes by heterogeneous Fenton method》,《RESEARCH ON CHEMICAL INTERMEDIATES》,51,4,导师第一作者,本人第二作者,2089–2104,期刊论文,已发表,2025,已认定,三区,3.5
1(1,SCI三区)
1(2,导一,SCI三区)		20正选
3王雨姗085600 材料与化工2472261487.431、《Preparation of FeMOF Supported by Hydrolyzed  Polyacrylonitrile Fibers and the Application in the  Treatment of Dye Wastewater》,《Journal of Applied Polymer Science》,142,36,导师第一作者,本人第二作者,期刊论文,已发表,2025,已认定,三区,2.8
2、《Few-layer MoS2 modified epoxy/MoS2-graphite coating: Robust solid  lubrication enabling sustained tribological performance during oil  lubrication failure》,《Surfaces and Interfaces》,72,无,第二作者,期刊论文,已发表,2025,已认定,二区,6.3
3、《Emergency-Ready Functional Coatings: Sustaining Friction  Performance Through Oil Lubrication Failure》,《Polymers for Advanced Technologies》,36,8,第二作者,期刊论文,已发表,2025,已认定,三区,3.4
1(2,导一,SCI三区)
1(2,SCI三区)
1(2,导一,SCI二区)		16正选
4张诗琪080502 材料学2372229889.541、《The enhancement of magnetic properties of Nb/Ga–doped (Nd,Pr)–(Fe,Co)–B alloys via synergistic effects of grain refinement and tuning intergranular phase》,《Journal of Materials Science & Technology》,252,无,中国科技论文统计源期刊目录(科技引证),导师第一作者,本人第二作者,245-252,期刊论文,已发表,2025,已认定,一区
2、《The coercivity–remanence synergy in bulk Nd2Fe14B/α–Fe nanocomposite magnet by crystallizing amorphous precursor and annealing with a magnetic field》,《Journal of Materials Research and Technology》,36,无,导师第一作者,本人第二作者,9298-9307,期刊论文,已发表,2025,已认定,二区,6.6
3、《Enhanced DC and AC Soft Magnetic Properties of Fe-Co-Ni-Al-Si High-Entropy Alloys via Texture and Iron Segregation》,《Metals》,14,10,第三作者,1113,期刊论文,已发表,2024,已认定,三区,2.6
4、《The Effect of Annealing in a Magnetic Field on the Microstructures and Magnetic Properties of (Nd0.8RE0.2)2.2Fe12Co2B (RE = La, Ce) Alloy》,《Metals》,1,15,第三作者,5,期刊论文,已发表,2025,已认定,三区,2.5
1(2,导一,SCI一区)
1(2,导一,SCI二区)
2(3,导一,SCI三区)
66正选
5刘嘉宇085600 材料与化工2372258286.51、《In-situ reaction-driven self-lubricating protection for superior wear resistance in electron beam additively manufactured hierarchical high-entropy nanocomposites》,《Tribology International》,214,111203,第一作者,期刊论文,已发表,2025,已认定,一区,6.9
2、《一种核用耐磨高熵合金涂层及制备方法与应用》,专利,导师第一作者,本人第二作者,申请,2025-07-29,202511048015.X
1(1,SCI一区)
1(2,导一,专利)		40正选
6刘宏祥085600 材料与化工2372259188.711、《Interlaminar multiscale toughening of CF/EP composites by interleaving Graphene/PES hybrid nanofibers》,《Composites Part B: Engineering》,306,1,导师第一作者,本人第二作者,112846,期刊论文,已发表,2025,已认定,一区,14.2
1(2,导一,SCI一区)
38正选
7王文强080502 材料学2372229788.431、《The evolution of NiMnSi clusters in RPV steels under proton irradiation: The effect of Cu 》,《Journal of Nuclear Materials》,第一作者,NUMA 156174,期刊论文,录用,2025,一区,3.2

1(1,SCI一区)
38正选
8赖家璇085600 材料与化工2372259090.361、《时效处理对(FeCoNi)86Al7Ti7高熵合金微观组织和高温力学性能影响》,《材料开发与应用》,第一作者,期刊论文,录用,2025
2、《Ultra-high hardness and wear resistance combined with excellent corrosion resistance of novel dual-phase Al-Cr-Fe-V-Ti high-entropy alloys》,《Journal of Alloys and Compounds》,1029,1,第一作者,期刊论文,已发表,2025,已认定,二区,6.3
3、《新型Al-Cr-Fe-V-Ti 系高耐磨损耐腐蚀高熵合金的成分配方及制备方法》,专利,导师第一作者,本人第二作者,申请,2025-01-17,2025100776523
4、《一种Fe-Ni-Al-Ti 系高熵合金及其制备方法》,专利,导师第一作者,本人第二作者,申请,2025-08-11,2025111164253
1(1,SCI二区)
2(2,导一,专利)
1(1,核心)		28正选
9杨鸿铭085600 材料与化工2372259588.151、《In-situ alloying of metal particle-reinforced CoCrNi medium-entropy alloy via laser powder bed fusion》,《Intermetallics》,178,2,第一作者,108643,期刊论文,已发表,2025,已认定,二区,4.8
2、《Achieving ambient superformability in a lightweight refractory medium-entropy alloy via stagewise adaptive microstructural buffers》,《Journal of Materials Science & Technology》,248,2,中国科技论文统计源期刊目录(科技引证),第三作者,212-223,期刊论文,已发表,2025,已认定,一区,14.3
3、《一种新型韧性轻质高温中熵合金及其制备工艺》,专利,导师第一作者,本人第二作者,申请,2025-05-19,202510643041 .0		1(3,SCI一区)
1(1,SCI二区)
1(2,专利)		24.6正选
10曹璐085600 材料与化工2372258687.071、《Effect of quenching temperature on the structure and properties of Cu-Zr-Al  glassy ribbons》,《Journal of Materials Research and Technology》,第一作者,期刊论文,已发表,2025,已认定,二区,6.6

1(1,SCI二区)		22正选
11李展博080502 材料学2372230287.071、《Synthesis of Fe88Pr10Al2 metallic glass with excellent magnetocaloric effect near the ice point》,《Journal of Non-Crystalline Solids》,662,23,第一作者,期刊论文,已发表,2025,已认定,二区,3.5

1(1,SCI二区)
22正选
12吴西杰085600 材料与化工2372259289.211、《Effect of alloying elements on the microstructure and high-temperature oxidation behavior of yttrium-based alloys》,《Materials Chemistry and Physics》,341,ISSN 0254-0584,第一作者,期刊论文,已发表,2025,已认定,三区,4.7
2、《原位生成ZrC对钇基合金组织和抗高温氧化性能的影响》,《上海金属》,47,3,第三作者,21-28,期刊论文,已发表,2025,已认定
3、《Microstructure and mechanical evolution of FeCrAlMo-xZr fuel cladding   alloys during hot corrosion》,《NUCLEAR ENGINEERING AND TECHNOLOGY》,57,9,第二作者,103637,期刊论文,已发表,2025,已认定,二区,2.6

1(1,SCI三区)
1(2,SCI二区)
1(3,核心)		13.2正选
13刘银忠080501 材料物理与化学2372225189.071、《Augmented MOF-ZnO nanostructure gas sensing capabilities for ppb-level n-butanol detection by RE (Ce, Eu, Er) incorporation and UV irradiation》,《Journal of Rare Earths》,第一作者,期刊论文,录用,2025,一区
2、《A Highly Sensitive Low-Temperature N-Butanol Gas Sensor Based on a Co-Doped MOF-ZnO Nanomaterial Under UV Excitation》,《Sensors》,25,14,第一作者,4480,期刊论文,已发表,2025,已认定,三区,3.5
1(1,SCI三区)
1(1,SCI一区)		48正选
14胡佳雯080502 材料学2372227990.531、《Pre-sodiation strategies for constructing high performance sodium-ion batteries》,《Journal of Materials Chemistry A》,13,5,第一作者,3206-3235,期刊论文,已发表,2025,已认定,二区,9.5
2、《High-Capacity NASICON-Type Na3V1.8Cr0.2(PO4)3 Cathode for High Performance Sodium-Ion Batteries》,《ACS Applied Materials & Interfaces》,45752−45763,32,第一作者,期刊论文,已发表,2025,已认定,二区,8.2
3、《Preparation and evaluation of Fe2TiO5/graphene nanocomposites as anode  material for high-performance lithium-ion battery》,《Journal of Electroanalytical Chemistry》,1572-6657,980,第三作者,期刊论文,已发表,2025,已认定,三区,4.1
2(1,SCI二区)
1(3,SCI三区)		45正选
15叶昱璐080501 材料物理与化学2372225983.861、《Fabrication of Highly Efficient Nanogold Membrane Catalysts Utilizing Ultrathin Gold Nanowires in the Presence of Thiourea》,《Journal of Physical Chemistry C》,129,8,第一作者,4077-4085,期刊论文,已发表,2025,已认定,三区,3.2
2、《Polythiourea-Mediated Reconstruction of Ultrathin Gold Nanowires for Controlled Formation of 3D Porous Hybrid Films》,《LANGMUIR》,343441,34,第一作者,22948-22958,期刊论文,已发表,2025,已认定,二区,3.9
3、《Tuning surface morphology of AuNPs film via thiourea as a stable SERS platform for methylene blue》,《Talanta》,281,1,第三作者,期刊论文,已发表,2024,已认定,一区,5.6
4、《Regrowth of gold nanoparticles facilitated utilizing small molecules ligand for high stability and performance》,《Chemical Engineering Journal》,508,1,第三作者,161086,期刊论文,已发表,2025,已认定,一区,13.2
5、《Synthesis of Degradable Thiourea-2-Polycaprolactone Anchored Gold Minqiang  Nanoparticle Membranes for Efficient Catalytic Activation》,《COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS》,709,1,第二作者,136139,期刊论文,已发表,2025,已认定,二区
6、《Polythiourea-immobilized gold nanoparticles on filter paper for boosting catalytic conversion efficiency and stability》,《LANGMUIR》,41,10,第二作者,7080-7088,期刊论文,已发表,2025,已认定,二区,3.9
7、《Highly recyclable gold nanoparticle films on lithium-ion battery separator for efficient catalytic conversion: Insights from 2D correlation spectroscopy analysis》,《Journal of Environmental Chemical Engineering》,13,4,第二作者,117341,期刊论文,已发表,2025,已认定,二区,7.2
1(1,SCI三区)
1(1,SCI二区)
1(3,SCI一区)
3(2,SCI二区)		43正选
16祝玄080903 微电子学与固体电子学2372248987.211、《Effect of interface states on capacitance-voltage characteristics of CdZnTe  crystals after surface oxidation》,《Surface and Coatings Technology》,497,无,导师第一作者,本人第二作者,期刊论文,已发表,2025,已认定,一区,6.1
2、《In-situ growth of SiCw through collaborative multiple mechanisms to tune  the transition layer》,《Journal of the European Ceramic Society》,45,9,第二作者,期刊论文,已发表,2025,已认定,一区,6.2
1(2,导一,SCI一区)
1(2,SCI一区)		41正选
17黄迎冬080903 微电子学与固体电子学2372248588.361、《Machine learning optimization of CdZnTe crystal growth by Travling Heater Method and characterization of its crystalline and photon counting detectors》,《Journal of Applied Crystallography》,第一作者,期刊论文,录用,2025
2、《Growth of CdZnTe crystal under high magnetic field and its photon-counting detector performance》,《Journal of Alloys and Compounds》,1011,未标注,第二作者,期刊论文,已发表,2025,已认定,二区,6.3
1(3,导二,SCI二区)
1(1,SCI二区)		25正选
18王群芳080903 微电子学与固体电子学2372249385.51、《Enhancement of detection performances of  cadmium zinc telluride (CdZnTe) radiation  detectors through sapphire substrates》,《Journal of  Alloys and  Compounds》,1010,暂无,第一作者,期刊论文,已发表,2024,已认定,二区,5.8
2、《Effect of a seed layer on the properties of CdZnTe thick films prepared by  close-spaced sublimation method》,《Materials Science in Semiconductor Processing》,186,暂无,第三作者,期刊论文,已发表,2024,已认定,三区,4.2
1(1,SCI二区)
1(3,SCI三区)		23正选
19徐真080502 材料学2372227487.211、《Enhanced photoelectrochemistry properties of CdZnTeSe thin films》,《Applied Surface Science》,Volume 680,January 30, 2025,导师第一作者,本人第二作者,161372,期刊论文,已发表,2024,已认定,二区,6.3
1(2,导一,SCI二区)22正选
20张巍080903 微电子学与固体电子学2372248888.641、《Optimization of fabrication process for Ga2O3-based heterojunction  solar-blind UV photodetector by magnetron sputtering》,《Materials Science in Semiconductor Processing》,188,暂无,导师第一作者,本人第二作者,期刊论文,已发表,2024,已认定,三区,4.2
2、《Hetero-interface boosted high-performance a-Ga2O3  thin-film phototransistors》,《Applied Surface Science》,679,暂无,第三作者,161179,期刊论文,已发表,2025,已认定,二区,6.9
3、《High performance Ga2O3-based p-i-n heterojunction for solar-blind  ultraviolet photodetectors》,《Physica B: Condensed Matter》,704,2025,第三作者,期刊论文,已发表,2025,已认定,三区,2.8
4、《ZnO:(B, Ga)/Au electrodes for improved Ohmic contacts on  ultrawide-bandgap Ga2O3 films》,《Surface & Coatings Technology》,506,2025,第三作者,期刊论文,已发表,2025,已认定,一区,6.1
5、《Fabrication and properties of Ga2O3 films on flexible PET substrates》,《International Conference on Optical Imaging and Detection Technology (OIDT 2025)》,第一作者,2025-08,已认定
1(2,导一,SCI三区)
1(3,SCI一区)
1(3,SCI二区)
1(3,SCI三区)
1(1,国际会议)		17正选
21王维坤080503 材料加工工程2372236989.641、《预应变对TWIP1000钢低周疲劳性能的影响》,《International Journal of Fatigue》,202,无,第一作者,109241,期刊论文,已发表,2025,已认定,一区,6.8
2、《复相钢CP980激光焊接接头及其热影响区的疲劳特性研究》,《上海金属》,中国科技论文统计源期刊目录(科技引证),校内核心,第二作者,期刊论文,录用,2025
3、《通过预水淬抑制亚临界退火 7Mn 中锰钢的塑性不稳定现象》,《Journal of Iron and Steel Research International》,中国科技论文统计源期刊目录(科技引证),校内核心,第二作者,期刊论文,录用,2025,二区

1(1,SCI一区) 

1(3,导一,SCI二区)

1(2,核心)

41.6正选
22李伯龙080503 材料加工工程23722386891、《Control of the intermetallic compound of the laser welding-brazing steel-Al joint and its effect on the joint property》,《Journal of Materials Research and Technology》,36,36,第一作者,2839–2848,期刊论文,已发表,2025,已认定,二区,6.6
2、《Microstructure Evolution and Fracture Mode of Laser Welding–Brazing DP780 Steel-5754 Aluminum Alloy Joints with Various Laser Spot Positions》,《Materials》,18,12,第一作者,2676-2689,期刊论文,已发表,2025,已认定,三区,3.2
3、《Characterization of the Microstructure and Interfacial Morphology of Magnetic Pulse Welded Steel/Al Tubes》,《Materials》,18,4,第二作者,757-770,期刊论文,已发表,2025,已认定,三区,3.2
4、《Formation of the Interlock Morphology and Its Role in Refill Friction Stir Spot Welding of Aluminum Alloy to Steel》,《Metals》,14,11,第二作者,1209-1224,期刊论文,已发表,2024,已认定,三区,2.6

1(1,SCI二区)

1(1,SCI三区)

2(2,SCI三区)

38正选
23黄嘉良080503 材料加工工程2372238787.141、《Effect of Stabilization Treatment on the Microstructural Evolution and Tensile Properties of GH4706 Superalloy》,《Materials》,18,4297,第一作者,期刊论文,已发表,2025,已认定,三区,3.2
2、《涡轮盘用高温合金GH4706的热物理性能》,《理化检验-物理分册》,第一作者,期刊论文,录用,2025
3、《Effect of stabilization heat treatment on hot deformation behavior of GH4706 alloy》,《Materials Characterization》,229,A,第一作者,期刊论文,已发表,2025,已认定,二区

1(1,SCI二区)

1(1,SCI三区)

32正选
24段晓寒080503 材料加工工程2372236190.621、《Making low alloy ultrahigh strength steel tough by high-density NiAl clusters》,《Materials Characterization》,229,Part A,第一作者,115480,期刊论文,已发表,2025,已认定,二区
2、《The evolution and toughening mechanism of austenite in high Co-Ni ultrahigh strength steel》,《Journal of Materials Research and Technology》,33,-,第三作者,3384-3394,期刊论文,已发表,2024,已认定,二区,6.2
1(1,SCI二区)
1(3,SCI二区)		24正选
25罗锦涛080503 材料加工工程2372236487.431、《Modulation of crystal nucleation and growth enables tailoring the mechanical properties of Zr55Cu30Al10Ni5 powder》,《Journal of Alloys and Compounds》,第一作者,期刊论文,录用,2025
2、《Revealing the effect of annealing at Tg on the crystal growth in Au49Ag5.5Pd2.3Cu26.9Si16.3 metallic glass via nanocalorimetry》,《Thermochimica Acta》,2024,2024-08,第三作者,740,期刊论文,已发表,2024,已认定,二区,3.1
1(1,SCI二区)22正选
26周凤岐080503 材料加工工程2372245388.51、《The effect on the modification behavior of sulfides in free-cutting steel》,《METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE》,第一作者,期刊论文,录用,2025,二区
2、《The effect of cerium addition on the growth mechanism of manganese sulfide in free cutting steel》,《Ceramics International》,51,8,第一作者,10628-10642,期刊论文,已发表,2025,已认定,二区,5.6
3、《Synthesis and exploration of NiSe2-GO composites as electrocatalysts with high-performance oxygen evolution reaction》,《Electrochemistry Communications》,179,无,第二作者,108008,期刊论文,已发表,2025,已认定,三区,4.2
4、《thermodynamic assessment of CaO-Al2O3-SiO2-Ce2O3 subsystems》,《Calphad》,第二作者,期刊论文,录用,2025,三区,1.9
5、《铈对易切削钢中硫化物改性行为的影响》,《2025 International Conference on Secondary refining & Inclusion Control》,第一作者,2025-08,已认定
6、《铈对易切削钢中硫化锰析出机制的影响》,《第二十五届全国炼钢学术会议》,第一作者,2024-05,已认定
7、《Effect of Cerium on the Nucleation and Growth of MnS Inclusions in Free Cutting Steel》,《Asia steel 2024》,导师第一作者,本人第二作者,2024-09,已认定

2(1,SCI二区)

2(2,SCI三区) 

1(1,国际会议) 

1(2,导一,国际会议)    

54正选
27张振080503 材料加工工程2372246886.861、《Influence of laser powder bed fusion parameters on deformation behavior and stress-induced martensitic transformation in NiTi alloys at constant volumetric energy density level》,《MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING》,第一作者,149113,期刊论文,已发表,2025,已认定,一区,7
2、《In-situ synchrotron diffraction study on the anisotropic deformation and phase transformation behaviors in NiTi shape memory alloy fabricated by laser powder bed fusion》,《Additive Manufacturing》,96,2214-8604,第二作者,期刊论文,已发表,2024,已认定,一区,10.3

1(1,SCI一区)

1(2,SCI一区)

41正选
28孙猛080503 材料加工工程2372244186.071、《Research progress on the microstructure and property regulation of Cu-15Ni-8Sn alloy by multi-mode magnetic fields and microalloying》,《cMat》,导师第一作者,本人第二作者,期刊论文,录用,2025
2、《Influence of temperature on the saturation effect of creep-fatigue life for directionally solidified Ni-based superalloy DZ445》,《Materials Science & Engineering A》,导师第一作者,本人第二作者,期刊论文,录用,2025,一区
3、《Mechanism of ultrasound enhanced selective pressure leaching of Ga and Ge from zinc powder replacement residue》,《Transactions of Nonferrous Metals Society of China》,中国科技论文统计源期刊目录(科技引证),校内核心,第二作者,期刊论文,录用,2025,二区,4.7
1(2,导一,SCI一区)
1(2,SCI二区)		41正选
29廖厚劲080503 材料加工工程2E+0787.791、《Effect of Ca addition on the interaction between DD419 superalloy and MgO crucible》,《Ceramics International》,51,20,导师第一作者,本人第二作者,30809-30820,期刊论文,已发表,2025,已认定,二区,5.6
2、《氧化镁坩埚与镍基高温合金界面反应机理》,《硅酸盐学报/Journal of the Chinese Ceramic Society》,52,12,中文核心期刊要目总览(北大目录),中国科技论文统计源期刊目录(科技引证),导师第一作者,本人第二作者,3832-3840,期刊论文,已发表,2024,已认定
3、《Wettability and Interfacial Reaction between the K492M Alloy and an Al2O3 Shell》,《Materials》,17,18,导师第一作者,本人第二作者,4674,期刊论文,已发表,2024,已认定,三区,3.1
4、《Effect of Al and Ca on the interaction between the BaZrO3 crucible and the Ni-based superalloy》,《Surface and Coatings Technology》,500,无,第三作者,131933,期刊论文,已发表,2025,已认定,一区,6.1
5、《Erosion Resistance of BaZrO3-Y2O3 Two-Phase Crucibles against Highly Active Ti2Ni Alloys》,《High-Temperature Materials》,1,1,第三作者,10003,期刊论文,已发表,2024,已认定
1(2,导一,SCI二区)
1(2,导一,SCI三区)

1(2,导一,EI)

1(3,SCI一区)

40正选
30金星光085600 材料与化工2372254087.791、《The Solid-Phase Synthesis of high-stability SrY2O4 and Comparative Analysis with Y2O3 in Melting Ti-46Al-8Nb Alloy》,《Ceramics International》,51,19,第一作者,29176-29186,期刊论文,已发表,2025,已认定,二区,5.6
2、《The microstructural development and erosion mechanism of BaZrO3/Al2O3 double ceramics by Ti–46Al–8Nb alloy melt》,《Journal of Materials Research and Technology》,33,November–December 2024,第三作者,4215-4225,期刊论文,已发表,2024,已认定,二区,6.2
3、《Microstructure evolution and stability of BaZrO3/Y2O3/Al2O3 triple ceramics interfaces in contact with highly active Ti-46Al-8Nb melts》,《Surface and Coatings Technology》,505,June 1,第二作者,132067,期刊论文,已发表,2025,已认定,一区,6.1
4、《一种锶钇氧耐火材料及其制备方法及其坩埚产物及用途》,专利,第三作者,申请,2025-05-27,CN202510160494.8
5、《一种服役温度为600℃以上的含Cr近α高温钛合金及其熔炼方法及应用》,专利,第六作者,申请,2025-04-18,CN202411870895.4
6、《一种钛合金精密铸造用陶瓷复合型壳及其制备方法》,专利,第七作者以后,申请,2024-05-03,CN202410007090.0
1(1,SCI二区)
1(2,SCI一区)
1(3,SCI二区)		27正选
31张秀新080503 材料加工工程2372240292.791、《Self-assembled silane films on carbon steel surfaces and its corrosion resistance in sodium chloride solution》,《Surfaces and Interfaces》,71,2468-0230,第一作者,期刊论文,已发表,2025,已认定,二区,6.3
2、《一种不锈钢双极板表面垂直石墨烯镀层制备及工艺优化的方法》,专利,导师第一作者,本人第二作者,申请,2025-01-07,2025100225287

1(1,SCI二区)

1(2,导一,发明专利申请)    

24正选
32安彤080502 材料学2372231485.571、《Synergistically Enhanced Antistatic and Durability in Polyester Fabrics via Modified Nano-Carbon Black/Polyacrylate Antistatic Coatings》,《Fibers and Polymers》,第一作者,期刊论文,录用,2025,三区
2、《Structure-function integrated design of electromagnetic interference shielding and mechanical properties of 2D carbon fiber reinforced polymer composites based on absorption loss regulation》,《Polymer Composites》,46,3,第三作者,2176-2189,期刊论文,已发表,2024,已认定,二区,4.8

1(3,SCI二区)
1(1,SCI三区)
12候补




上一条:2025年材料学院研究生学业奖学金推荐名单公示

下一条:材料学院2025年国庆节值班安排