教授

研究领域：

1. 结构-功能一体化复合材料及其工艺；

2.低维功能材料设计及其在新能源领域的应用；

3. 能源/材料化学；

4. 材料表面与界面物理化学；

教学领域：

1. 材料化学导论（国家精品课程，双语课程）；

2. 无机复合材料及工艺；

3，高等固体物理学；

4. 半导体物理学；

5. 普通化学；

6. 纳米材料与纳米技术

厦门市生态环境局入库专家、中国能源环境科技协会理事、美国纳米学会会员、美国物理学会会员、美国化学学会会员；入选厦门市 “双百人才”（2017），福建省高层次人才；应用物理 (APP)等杂志编委，已在国际知名期刊上发表SCI收录论文100余篇；主持多项国家自然科学基金项目、福建省自然科学基金项目、作为技术核心骨干第一参与人参与国家重大科学研究计划项目和多项企业研发课题；授权发明专利多项。

1. Xia Y., Fan S., Zheng H., Zhang S., Hu X., Xu R., Du Y., Yan J., Lin S., Han J. *, Yu Z. *, Peng D.L., Yue G.H.*, (2026) A Dual-Salt/Dual-Polymer Quasi-Solid Electrolyte for High-Performance Lithium-Oxygen Batteries, Adv. Funct. Mater., 38, e75735.

2. Liu B., Xia Y., Su Y., Li J., Wu H., Lin Q., Huo S., Zhang L., Yue G.H.*, Liu A. *, (2026) Photothermal-Augmented CoP-Carbon Polyhedral Nanozyme: Redox Homeostasis and Immune Reprogramming Mediated Psoriasis Therapy, Adv. Healthc. Mater., 15, e04080.

3. Yan J., Xia Y., Lin S., Du Y., Zhou Z., Li J. *, Yue G.H.*, (2026) Direct Regeneration of Spent LiNi_0.5Co_0.2Mn_0.3O₂ Cathodes by Utilizing Eutectic Lithium Salts for High-Performance Lithium-Ion Batteries, Coatings,16 (1), 107.

4. Xia Y., Lin S., Yan J., Xu R., Han J., Yu Z., Peng D.L., Yue G.H.*, (2026) Synergistic Ni/Mn Co-doping in Co₃O₄: A first-principles-based strategy to optimize metal‑oxygen bonds for high-performance Li-O₂ batteries, J. Colloid Interf. Sci., 704, 139355.

5. Xia Y., Fan S., Jin X., Wang L., Lin S., Yan J., Han J., Yu Z., Peng D.L., Yue G.H.*, (2025) Amorphous interface-controlled discharge product formation: A pathway to high-performance lithium-oxygen batteries, Nano Energy, 141, 111086.

6. Xia Y., Hong Z., Wang L., Jin X., Lin S., Yan J., Peng D.L., Yu Z.*, Yue G.H.*, (2025) Constructing the double oxygen vacancy in Ni-doped Co₃O₄ to enhance the electrochemical performance in lithium-oxygen batteries, J. Power Sources, 635, 236542.

7. Xia Y., Mao T., Jin X., Wang L., Yan J., Lin S., Peng D.L., Yu Z.*, Yue G.H.*, (2025) Constructed the microflower-like NiFe₂O₄/CeO₂ composites with high concentration of oxygen vacancies to accelerate the three-phase reaction in lithium-oxygen batteries, J. Colloid Interf. Sci., 680, 418-426.

8. Xia Y., Wang L., Gao G., Mao T., Wang Z., Jin X., Hong Z., Han J.*, Peng D.L*., Yue G.H.*, (2024) Constructed Mott–Schottky Heterostructure Catalyst to Trigger Interface Disturbance and Manipulate Redox Kinetics in Li-O₂ Battery, Nano-Micro Lett., 16, 258.

9. Hong Z., Zhang S., Xia Y., Mao T., Wang Z., Li J., Peng D.L., Yue, G.H.*, (2024) Nickel-doped cobalt phosphide with phosphorus-vacancy-abundant as an efficient catalyst for non-aqueous and quasi-solid-state Li–O₂ batteries, Mater. Today Energy, 43, 101597.

10. Xia Y., Yang T., Wang Z., Mao Y., Hong Z., Han, J.*, Peng, D.L*., Yue, G.H.*, (2023) Van der Waals Forces between S and P Ions at the CoP-C@MoS₂/C Heterointerface with Enhanced Lithium/Sodium Storage, Adv. Funct. Mater., 33 (35), 2302830.

11. Yang T., Xia Y., Mao T., Ding Q., Wang Z., Hong Z., Han J.*, Peng D.L*., Yue G.H.*, (2022) Phosphorus Vacancies and Heterojunction Interface as Effective Lithium‐Peroxide Promoter for Long‐Cycle Life Lithium–Oxygen Batteries, Adv. Funct. Mater., 32, 2209876.

12. Yue G.H.*, Hong, Z., Xia, Y., Yang, T., Wu, Y., (2022) Bifunctional Electrocatalysts Materials for Non-Aqueous Li–Air Batteries. Coatings,12, 1227.

13. Wu Y., Ding H., Yang T., Xia Y., Zheng H., We, Q., Han J.*, Peng D.-L.*, Yue G.H.*, (2022) Composite NiCo₂O₄@CeO₂ Microsphere as Cathode Catalyst for High-Performance Lithium–Oxygen Battery, Adv. Sci., 9, 2200523.

14. Lin J., Yao L., Zhang C., Ding H., Wu Y., Li S., Han J.*, Yue G.H.*, Peng D.-L.*, (2021) Construction of Sb₂S₃@SnS@C Tubular Heterostructures as HighPerformance Anode Materials for Sodium-Ion Batteries, ACS Sustainable Chem. Eng., 9, 11280−11289.

15. Yao L., Lin J., Li S., Wu Y., Ding H., Zheng H., Xu W., Xie T., Yue G.H.*, Peng D.-L.*, (2021) Metal-organic frameworks-derived hollow dodecahedral carbon combined with FeN_x moieties and ruthenium nanoparticles as cathode electrocatalyst for lithium oxygen batteries, J. Colloid Interf. Sci., 596, 1–11.

16. Yue G.H. *, Luo X., Hu Z., Xu W., Li J., Liu J., Cao R. *, (2020) RuO_2−x decorated CoSnO₃ nanoboxes as a high performance cathode catalyst for Li–CO₂ batteries, Chem. Commun., 56 (78), 11693-11696

17. Han J., Zheng H., Hu Z., Luo X., Ma Y., Xie Q., Peng D.L.*, Yue G.H.*, (2019) Facile synthesis of Li-rich layered oxides with spinel-structure decoration as high-rate cathode for lithium-ion batteries, Electrochimica Acta, 299, 844-852.

18. Yue G.H.*, Liu J., Han J., Qi, D., Chen Q., Shao J., (2018) Amorphous CoSnO₃@ rGO nanocomposite as an efficient cathode catalyst for long-life Li-O₂ batteries, Chin. J. Catalysis 39 (12), 1951-1959.

19. Liu J., Zhao Y., Li X., Wang C., Zeng Y., Yue G.H.*, Chen Q., (2018) CuCr₂O₄@rGO Nanocomposites as High-Performance Cathode Catalyst for Rechargeable Lithium–Oxygen Batteries, Nano-Micro Lett., 10, 22.

20. Zhao Y. C., Li X, Liu J. D., Wang C. G., Zhao Y. Y., and Yue G.H. *, (2016) MOF-Derived ZnO/Ni₃ZnC_0.7/C Hybrids Yolk–Shell Microspheres with Excellent Electrochemical Performances for Lithium Ion Batteries, ACS Appl. Mater. Interfaces, 8 (10), 6472–6480.

发表学术论文详见：

https://xs.gupiaoq.com/citations?hl=en&user=2K96HysAAAAJ&view_op=list_works&sortby=pubdate