尧猛-材料科学与工程学院

尧猛

【个人简介】

尧猛，1996年出生，江西抚州人，四川大学特聘副研究员，硕士生导师，入选四川省高层次人才计划（2025）。2017年于清华大学化学工程系取得学士学位，2022年于中国科学院过程工程研究所取得博士学位，师从张锁江院士，张海涛研究员，长期从事高能量固态电池及电化学提锂研究研究。目前以第一/通讯作者在Adv. Mater. （1篇），Angew. Chem. （3篇）， Energy Environ. Sci. （3篇），Adv. Energy Mater. （3篇）, Adv. Funct. Mater. （6篇）等国际顶级期刊发表SCI论文35篇，其中A-类论文10篇（按四川大学论文分级,均为四川大学第一单位发表），H因子24，论文总被引2000余次。指导本科学生获大学生创新创业大赛国家金奖1次，校级银奖2次，并指导本科生发表SCI论文2篇（本科生一作）。目前担任Wiley、RSC、Springer Nature等出版社期刊独立审稿人，Rare Metal、Tungsten、Carbon Neutralization等国际期刊青年编委，Materials客座编辑。多次受邀在国内外学术会议做专题报告。主持国自然青年科学基金、四川省青年科学基金，四川省天府峨眉青年人才项目，四川大学校地合作等项目。

【教育及工作经历】

2013.09~2017.07 清华大学，化学工程系，工学学士

2017.09~2022.07 中科院过程工程研究所，工学博士

导师：张锁江研究员（院士），张海涛研究员（百人计划）

2022.10~至今四川大学，材料科学与工程学院，特聘副研究员（张云教授课题组）

【研究方向】

1.复合聚合物固态电解质设计研究

2.高压锂离子电池正极材料

3.复杂盐湖直接提锂技术开发

【招生方向】

硕士招生专业：学术硕士：080500|新能源材料与器件；专业硕士：085601|材料工程。

欢迎对固态电解质，盐湖提锂领域感兴趣的本科生、研究生加入。特别欢迎对科研具有浓厚兴趣的优秀本科生联系我开展“互联网+”、“挑战杯”、“大创”等项目及本科生毕业论文设计。

【联系方式】

邮箱：yaomeng@scu.edu.cn

地址：四川省成都市四川大学望江校区第一理科楼中413。

【近三年代表性论文】 (*通讯作者，†共同第一作者)

级别	名称	刊物名称	见刊时间	排名情况
A-	A lithium-selective ‘‘OR-gate’’ enables fast-kinetics and ultra-stable Li-rich cathodes for polymer-based solid-state batteries	Energy & Environmental Science	2025-03	共同通讯
A-	A defect-rich carbon induced built-in interfacial electric field accelerating ion-conduction towards superior-stable solid-state batteries	Energy & Environmental Science	2025-03	共同通讯
A-	Addressing the fundamental issues in Ni-rich cathodes: degradation mechanisms and mitigation strategies	Energy & Environmental Science	2025-11	共同通讯
A-	Achieving a Highly Reversible Four-Electron Redox of S/Cu2S for Aqueous Zn/S-Cu Battery	Angewandte Chemie International Edition	2025-04	共同通讯
A-	A 3D Hierarchical Host with Gradient-Distributed Dielectric Properties toward Dendrite-free Lithium Metal Anode	Angewandte Chemie International Edition	2024-05	共同通讯
A-	Semi-Metallic Superionic Layers Suppressing Voltage Fading of Li-Rich Layered Oxide Towards Superior-Stable Li-Ion Batteries	Angewandte Chemie International Edition	2023-10	共同一作
A-	Combined Ion-Expressway and Li+-Transit Lane in Asymmetric Polymer Electrolyte Enables High-Voltage Solid-State Lithium-Metal-Batteries	Advanced Energy Materials	2025-11	共同通讯
A-	An Ultrathin Asymmetric Solid Polymer Electrolyte with Intensified Ion Transport Regulated by Biomimetic Channels Enabling Wide-Temperature High-Voltage Lithium-Metal Battery	Advanced Energy Materials	2023-02	独立一作
A-	Hydrogel Electrolyte with Regulated Water Activity and Hydrogen Bond Network for Ultra-Stable Zinc Electrode	Advanced Energy Materials	2025-05	共同一作
A-	Gradient-Heterojunction in Solid Electrolytes for Fast-Charging Dendrite-free Solid-State Lithium Metal Batteries	Advanced Materials	2025-11	共同通讯
B	Activating Interfacial Li+ Transportation Channels via Lithium-rich Space Charge Layers towards Stable Solid-state Lithium-metal Batteries	Journal of Energy Chemistry	2025-05	共同通讯
B	Accelerating lithium ion conduction via activated interfacial dipole layer for long-life and high-voltage solid-state lithium-metal battery	Journal of Energy Chemistry	2025-04	共同通讯
B	Solvation-interphase synergistic regulation empowering high-temperature and fast-charging lithium metal batteries	Journal of Energy Chemistry	2025-07	共同通讯
B	Small-Molecule Selenium Cathode Constructed by Tailoring-Immobilization Strategy enables High-Power Lithium-Selenium Batteries	Advanced Functional Materials	2025-12	共同通讯
B	Self-Assembled Nano-Structure Domain via the Directionally Induced of Protein-Structure Enables Robust and Industrial Scalable Biomass Adhesives	Advanced Functional Materials	2025-09	共同通讯
B	Skin-Inspired Durable and Cost-Effective Biomass-Based Supramolecular Adhesives	Advanced Functional Materials	2025-03	共同通讯
B	Ionization-Targeted Modulation Enables Fast-Charging and High-Temperature Lithium-Metal Batteries	Advanced Functional Materials	2025-10	共同通讯
B	Electrochemically Mediated Lithium Extraction for Energy and Environmental Sustainability	Advanced Functional Materials	2024-04	共同通讯
B	A Robust Dual-Polymer@Inorganic Networks Composite Polymer Electrolyte Toward Ultra-Long-Life and High- Voltage Li/Li-Rich Metal Battery	Advanced Functional Materials	2023-02	独立一作
B	Upcycling degraded layered oxide cathodes from spent lithium-ion batteries toward emerging materials: A review	Energy Storage Materials	2024-07	共同通讯
B	Self-Oxidated Hybrid Conductive Network Enables Eﬃcient Electrochemical Lithium Extraction Under High-Altitude Environment	Small	2024-10	共同通讯
B	Rational Design of Ion-Conductive Layer on Si Anode Enables Superior-Stable Lithium-Ion Batteries	Small	2023-10	共同一作
B	Batteries with asymmetric solid-state electrolytes for sustainable energy storage	Nano Research	2025-05	共同通讯
B	Biomass materials for zinc-based sustainable and green energy storage devices: Strategy and mechanism	Nano Research	2025-02	共同通讯
B	Anion Endowed High Dielectric Water-Deficient Interface towards Ultrastable Zn Metal Battery	Chemical Science	2025-03	共同通讯
B	Interlayer substitution enables air-stable and long-life O3-type cathode for sodium-ion batteries	Journal of Power Sources	2025-01	共同通讯
B	A novel calcination method towards layered Ni-rich cathode with enhanced electrochemical performances and regulated oxygen vacancies	Chemical Engineering Journal	2023-06	共同一作