基本情况

岳光辉，厦门大学材料学院教授。

研究领域

结构-功能一体化复合材料及其工艺；低维功能材料设计及其在新能源领域的应用；能源/材料化学；材料表面与界面物理化学。

教育背景

2010年至2011年 博士后，韩国UNIST美国佐治亚理工联合培养

2002年至2007年 硕士、博士，兰州大学物理科学与技术学院

1998年至2002年 学士，河北师范大学

论文发表   

1. 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.
2. 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.
3. 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.
4. 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.
5. 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.
6. 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.
7. Yue G.H.*, Hong, Z., Xia, Y., Yang, T., Wu, Y., (2022) Bifunctional Electrocatalysts Materials for Non-Aqueous Li–Air Batteries. Coatings,12, 1227.
8. 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.
9. 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.
10. 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 FeNx moieties and ruthenium nanoparticles as cathode electrocatalyst for lithium oxygen batteries, J. Colloid Interf. Sci., 596, 1–11.
11. Yue G.H. *, Luo X., Hu Z., Xu W., Li J., Liu J., Cao R. *, (2020) RuO2−x decorated CoSnO3 nanoboxes as a high performance cathode catalyst for Li–CO2 batteries, Chem. Commun., 56 (78), 11693-11696