所属学院：

材料与能源学院

导师类别：

硕士生导师

科研方向：

锂/钠/锌离子电池、正负极材料、二维材料、纳米药物材料

联系方式：

shaolianyi@gdut.edu.cn

招生学院：

材料与能源学院

个人简述

邵涟漪，博士，硕士生导师，2018年6月毕业于南开大学，2018年8月以“青年百人计划”人才引进广东工业大学，现任职于材料与能源学院新能源材料与器件系。2021年入选“澳门青年学者计划”。主要从事锂/钠/锌离子电池、二维材料、纳米材料等领域的研究。主持国家青年科学基金1项，广东省级、市级项目3项，目前发表SCI论文130余篇，其中以第一作者及通讯作者发表SCI论文50余篇，论文被引用次数超3500次，H-index为35。

学科领域

科学学位：材料科学与工程

专业学位：材料工程

教育背景

2018年6月  在南开大学 材料物理与化学专业  获博士学位

2015年6月  在宁波大学 无机化学专业  获硕士学位

2012年6月  在宁波大学 应用化学专业  获学士学位

工作经历

2022年6月-至今，         在广东工业大学材料与能源学院  担任副教授

2021年3月-2022年5月，  在广东工业大学材料与能源学院  担任特聘副教授

2018年8月-2021年2月，  在广东工业大学材料与能源学院  担任讲师

学术兼职

担任Nano Materials Science青年编委，担任Advanced Materials、Angewandte Chemie International Edition、Advanced Energy Materials、Advanced Functional Materials、Nano Energy、Small、Chemical Engineering Journal、Composites Part B-Engineering等国际期刊的审稿人。

主要荣誉

2021年  获得澳门青年学者

2023年 获得广东工业大学年度“优秀研究生导师”称号

主要论文

近三年论文：

[1]Q.F. Huang, S. Ouyang, J.R. Lin, R. Jiang, J.J. Zhou, X.Y. Shi, J.L. Xu, L.Y. Shao*, Z.P. Sun*, Lattice‐Interface Dual Engineering Unlocking Quasi‐Zero‐Strain and High‐Rate Zinc‐Ion Storage in Polyanionic Cathode, Advanced Science, 2026, e21583.

[2]R. Jiang, J.J. Zhou, S. Ouyang, X.Y. Shi, J.L. Xu, X. Wang, L.Y. Shao*, Z.P. Sun*, Recent progress and strategic perspectives of Na₃V₂(PO₄)₂F₃ cathode: mechanisms, syntheses, and modifications in zinc-ion batteries, Next Research, 2026, 6, 101408.

[3]J.R. Lin, X.Y. Shi, J.L. Xu, L.Y. Shao*, Z.P. Sun*, Enabling Accelerated Na⁺ Dynamics Through Li‐Induced Electrostatic Shielding for High‐Performance Na₃V₂(PO₄)₂F₃ Cathode, Advanced Energy Materials, 2025, 2501979.

[4]S.H. Yang, R. Jiang, Z.R. Mao, X.Y. Shi, J.L. Xu, J. Shu, L.Y. Shao*, Z.P. Sun*, Self‐Confined Semi‐Conversion Reaction Endowing an Ultra‐Long Life Aqueous Cu‐Cu₂Se Battery, Small, 2025, e10274.

[5]S.L Zhou, Z.R. Mao, J.R. Lin, J.J. Zhou, J.X. Liu, X.Y. Shi, J.L. Xu, L.Y. Shao*, Z.P. Sun*, Kill two birds with one stone: Self-nanoparticlization β-Cu₂Se anode enabled by high efficiency and low-cost synthesis for wide-temperature sodium-ion batteries, eScience Energy, 2025, 1, 100007.

[6]J.R. Lin, J.X. Liu, L.Y. Shao*, X.Y. Shi, J.L. Xu, W. Guo, Z.P. Sun*, C.C. Chen*, L.F. Hang*, Regulating d–p Orbital Hybridized Electronic Structure via Doping Engineering for Advanced Sodium-Ion Batteries, ACS Applied Materials & Interfaces, 2025, 17, 38089-38099.

[7]R. Jiang, J.R. Lin, X.Y. Shi, B.T. Zheng, Q.F. Huang, J.L. Xu, L.Y. Shao*, Z.P. Sun*, Q.Q. Zhang*, L.F. Hang*, Robust cross-linked Na₃V₂O_1.6(PO₄)₂F_1.4@rGO&MWCNTs as a high-performance cathode for aqueous zinc-ion batteries, Journal of Materials Chemistry A, 2025,13, 22047-22056.

[8]J.X. Liu, S.H. Yang, R. Jiang, L. Yu, S.L. Zhou, X.Y. Shi, J.L. Xu, L.Y. Shao*, Z.P. Sun*, L.F. Hang*, Two-dimensional self-assembled TiSe₂ micro–nanoparticles toward high-performance sodium ion storage, Journal of Materials Chemistry A, 2025, 13, 7758-7765.

[9]J.R. Lin, L.Y. Shao*, S.G. Wang, S.L. Zhou, L. Yu, X.Y. Shi, J.L. Xu, Z.P. Sun*, H. Pan*, Nitrogen-doped carbon-modified Fe3Se4 as high pseudocapacitive anode for fast sodium-ion storage, Journal of Energy Storage, 2025, 139, 118818.

[10]J.J. Zhou, S.H. Yang, P.Y. Xu, X.Y. Shi, J.L. Xu, L.Y. Shao*, Y. Sun*, Z.P. Sun*, Tetragonal NaVPO₄F@rGO nanocomposite as a high-rate cathode for aqueous zinc-ion batteries, Chemical Communications, 2025, 61, 3339-3342.

[11]Z.H. Li, S. Ouyang, Z.R. Mao, X.Y. Shi, J.L. Xu, L.Y. Shao*, Z.P. Sun*, Honeycomb-shaped microporous carbon-confined selenium as a Zn–Se battery cathode material, Nanoscale, 2025, 17, 25090-25094.

[12]S.B. Yang, Y.Z. Diao, L.F. Hang, H. Qu, L.P. Fang, W. Guo, H. Wen, K. Iu, G.H. Jiang*, L.Y. Shao*, Q. Li*, BSA@IR780-loaded mesoporous polydopamine nanoparticles with enhanced photostability for multimodal imaging and photothermal therapy of tumors, Nanoscale Advances, 2025, 7, 2182-2194.

[13]S.L. Zhou, R. Jiang, S.G. Wang, L. Yu, X.Y. Shi, L.Y. Shao*, Z.P. Sun*, L.F. Hang*, FeSe₂ micro-nanorods confined in N-doped carbon as an advanced anode for fast sodium ion storage, Journal of Materials Chemistry A, 2024, 12, 11028-11037.

[14]J.D. Guan, S.L. Zhou, J.J. Zhou, F.D. Wu, X.Y. Shi, J.L. Xu, L.Y. Shao*, Z.Q. Luo*, Z.P. Sun*, Microwave-Assisted Hydrothermal Synthesis of Na₃V₂(PO₄)₂F₃ Nanocuboid@Reduced Graphene Oxide as an Ultrahigh-Rate and Superlong-Lifespan Cathode for Fast-Charging Sodium-Ion Batteries, ACS Applied Materials & Interfaces, 2024, 16, 20559-20569.

[15]X.F. Ma, J.L. Luo, R. Jiang, W.H. Xiao, X.Y. Shi, J.L. Xu, J.C. Sun, L.Y. Shao*, Z.P. Sun*, One-step Solid-State Synthesis of V_1.13Se₂/V₂O₃ Heterostructure as a High Pseudocapacitance Anode for Fast-Charging Sodium-Ion Batteries, ACS Applied Materials & Interfaces, 2024, 16, 18833-18842.

[16]W.H. Xiao, S.H. Yang, R. Jiang, Q.F. Huang, X.Y. Shi, Y.H. Tsang, L.Y. Shao*, Z.P. Sun*, V₄C₃ MXene-derived Zn_0.99V₅O₁₂·nH₂O nanoribbons as advanced cathodes for ultra-long life aqueous zinc-ion batteries, Journal of Materials Chemistry A, 2024, 12, 5530-5539.

[17]J.D. Guan, Q.F. Huang, L.Y. Shao*, X.Y. Shi, D.D. Zhao, L.B. Wang*, Z.P. Sun*, Polyanion-Type Na₃V₂(PO₄)₂F₃@rGO with High-Voltage and Ultralong-Life for Aqueous Zinc Ion Batteries, Small, 2023, 2207148.

[18]Q.F. Huang, L.Y. Shao*, X.Y. Shi, J.D. Guan, J.L. Xu, Y.X. Wu, Z.P. Sun*, Na₃V₂O₂(PO₄)₂F nanoparticles@reduced graphene oxide: a high-voltage polyanionic cathode with enhanced reaction kinetics for aqueous zinc-ion batteries, Chemical Engineering Journal, 2023, 468, 143738.

[19]J.Z. Hong, L. Xie, C.L. Shi, X.Y. Lu, X.Y. Shi, J.J. Cai, Y.X. Wu, L.Y. Shao*, Z.P. Sun*, High-performance aqueous zinc-ion batteries based on multidimensional V₂O₃ nanosheets@single-walled carbon nanohorns@reduced graphene oxide composite and optimized electrolyte, Small Methods, 2023, 2300205.

[20]L. Yu, L.Y. Shao*, R.M. Pan, J.D. Guan, J.R. Lin, X.Y. Shi, J.J. Cai, J.C. Sun, C.C. Chen*, Y.X. Wu, Z.P. Sun*, Facile Development of Disused Nickel Foams into Low-Cost and High-Performance Electrode Materials for Sodium-Ion Batteries, ACS Sustainable Chemistry & Engineering, 2023, 11, 10324-10332.

[21]J.L. Luo, L.Y. Shao*, L. Yu, X.Y. Shi, J.L. Xu, J.C. Sun, L.F. Hang*, Y.X. Wu, Z.P. Sun*, Self-intercalated quasi-2D structured V₅Se₈ wrapped with multi-walled carbon nanotubes toward advanced sodium ion batteries, Materials Today Physics, 2023, 35, 101099.

[22]R. Wang, Y. Yang, X.C. Xu, S.J. Chen, A. Trukhanov, R.Y. Wang*, L.Y. Shao*, X. Lu*, H. Pan*, Z.P. Sun*, Interface engineering and heterometal-doped FeOOH/Ga-Ni₃S₂ nanosheet arrays for efficient electrocatalytic oxygen evolution, Inorganic Chemistry Frontiers, 2023, 10, 1348-1356.

知识产权

[1] 邵涟漪，关杰多，王玺，吴方丹，汪世鸽，喻露，史晓艳，孙志鹏，发明专利：一种氟磷酸钒钠/还原氧化石墨烯复合材料及其制备方法和应用，ZL 20211 0702426.1。

[2] 邵涟漪，蒋睿，周嘉杰，黄巧峰，史晓艳，孙志鹏，一种碱金属离子掺杂氟磷酸氧钒钠@碳复合材料的制备方法以及应用，ZL 202411545809.2。

[3] 邵涟漪，罗江淩，喻露，史晓艳，孙志鹏，V_xSe_y/多壁碳纳米管复合材料的制备方法及其应用，202211368187.1。

[4] 邵涟漪，汪世鸽，吴方丹，关杰多，喻露，史晓艳，孙志鹏，一种纳米带状或棒状的FeOOH及其制备方法和应用，202111012200.5。

科研项目

[1]国家自然科学基金青年科学基金项目：高电压自支撑聚阴离子型正极材料的结构设计及储锌性能研究，主持。

[2]广东省基础与应用基础研究基金自然科学基金项目（面上项目）：氟磷酸氧钒钠基储锌正极材料的多维协同优化与性能提升机制研究，主持。

[3]广州市基础研究计划基础与应用基础研究项目：高电压高倍率聚阴离子材料的可控构建及其环境适应性储钠性能研究，主持。

[4]广东省高校青年创新人才项目：黑磷烯和自支撑黑磷烯/石墨烯复合材料的构建及储能性能研究，主持。

[5]广东工业大学青年百人计划科研启动基金项目，主持。

[6]广东省科技厅国际合作项目：新策略制备廉价、高活性双功能催化剂材料应用于催化裂解废旧混合塑料，参与。