研究方向：

多孔吸附材料的功能性设计； 氨气捕集及其热力学研究；二氧化碳的吸附和催化转化

主持项目：

6.福建省自然科学基金面上项目，基于门开效应吸附氨气的硫氰酸型二维层状MOFs的结构设计及性能研究(2024J01084)，2024.5.1-2027.4.30，主持。

5.国家自然科学基金面上项目，基于限域效应的配阴离子功能化多孔聚离子液体的结构设计及竞争性吸附氨气的研究(22278165)，2022.1.1-2026.12.31，主持。

4. 国家自然科学基金青年项目，双位点功能化离子液体碳捕集过程中抑制与协同作用的研究(21803021)，2019.1.1-2021.12.31主持。

3.华侨大学中青年教师科技创新资助计划，培育计划，质子型离子液体氢键自组装相变材料的熵焓效应提升氨气捕集性能的研究，2018-2022年，主持。

2. 福建省高校青年自然基金重点项目，氢键作用改善功能化离子液体碳捕集性能的研究，2016.12.1-2019.11.30，主持。

1.华侨大学科研启动基金，新型氨基功能化离子液体的构建及其碳捕集行为的研究，2016年，主持。

发表文章：

20. Zheng LF, Luo XY,* Zhang XG, Huang Y, Shen LN, Li FYo,  Yang JX, Tian CB, Xie LQ,* Wei ZH*; Bilayered Molecular Bridge Mediated by Π–Π Stacking for Improved Interfacial Charge Transport in Perovskite Solar  Cells, Adv. Funct. Mater. 2025, 2424464.

19. Ling RH, Li MX, Li X, Pei LH, Luo XY*, Wang CM*; Self-repairing [MEDTA]^2- functionalized poly(ionic liquid)s in the application of NH₃ adsorption through reversible NH₃ insertion. Chem. Eng. J., 2024, 488: 150793.

18. Luo XY*, Ling RH, Xing RJ, Liu YB, Wan JH, Li MX,  Wang CM*; Improved NH₃ uptake of a macromolecule−metal complex  constructed with dual polymeric ligands and M(II), ACS Appl. Mater. Interfaces, 2024,16(5): 6495−6503

17. Luo XY*, Liu YB, Li MX, Ling RH, Ye , Cao XG, Wang CM*; Porous acid–base hybrid polymers for enhanced NH₃ uptake with assistance from cooperative hydrogen bonds, RSC Adv., 2023, 13: 28729–28735.

16. Luo L, Liu YB, Wu ZX, Liu JJ, Cao XG, Lin JQ, Ling RH, Luo XY*, Wang CM*, Macromolecular-metal complexes induced by Co(II) with polymer and flexible ligands for ammonia uptake compared with MOFs, Chem. Eng. J., 2022, 448: 137626.

15. Luo L, Wu ZH, Wu ZX, Liu YB, Huang XY, Ling RH, Ye L, Luo XY,* Wang CM*, Role of Structure in the Ammonia Uptake of Porous Polyionic Liquids ACS Sustain. Chem. Eng., 2022, 10: 4094−4104.

14. Luo L†, Li JR†, Chen XY, Cao XG, Liu YB, Wu ZX, Luo XY*, Wang CM,* Superhigh and reversible NH₃ uptake of cobaltous thiocyanate functionalized porous poly ionic liquids through competitive and cooperative interactions, Chem. Eng. J., 2022, 427: 131638.

13. Li JR, Luo Li, Yang L, Zhao CY, Liu YB, Wu ZX, Luo XY*, Lin JQ Lin*, Ionic framework constructed with protic ionic liquid units for improving ammonia uptake, Chem. Commun., 2021, 57, 4384–4387.

12. Qiu RX, Luo XY*, Yang L, Li JR, Chen XY, Peng C, Lin JQ*, Regulated Threshold Pressure of Reversibly Sigmoidal NH₃ Absorption Isotherm with Ionic Liquids, ACS Sustain. Chem. Eng., 2020, 8: 1637-1643.

11. Chen XY, Luo XY*, Li JR, Qiu RX, Lin JQ*, Cooperative CO₂ Absorption by Amino Acid based Ionic Liquids with Balanced Dual Sites. RSC Adv., 2020, 10: 7751-7757.

10. Luo XY, Qiu RX. Chen XY, Pei BY, Lin JQ*, Wang CM*, Reversible Construction of Ionic Networks Through Cooperative Hydrogen Bonds for Efficient Ammonia Absorption, ACS Sustain. Chem. Eng., 2019, 7: 9888-9895.

9. Luo XY, Chen XY, Qiu RX, Pei BY, Wei Y, Hu M, Lin JQ*, Zhang JY, Luo GG*, Enhanced CO₂ capture by reducing cation-anion interactions in hydroxyl-pyridine anion-based ionic liquids, Dalton Trans., 2019, 48: 2300-2307.

8. Luo XY, Lv XY, Shi GL, Meng Q, Li HR, Wang CM, Designing Amino-Based Ionic Liquids for Improved Carbon Capture: One Amine Binds Two CO₂, AIChE J, 2019, 65: 230-238.

7. Luo XY, Wang CM*. The development of carbon capture by functionalized ionic liquids. Current Opinion in Green and Sustain. Chem., 2017, 3, 33-38.

6. Luo XY; Chen, KH; Li, HR; and Wang, CM*. The capture and simultaneous fixation of CO₂ in the simulation of fuel gas by bifunctionalized ionic liquids. Int. J. Hydrogen Energ., 2016, 41, 9175-9182.

5. Luo XY; Fan, X; Shi, GL; Li, HR; and Wang, CM*. Decreasing the Viscosity in CO₂ Capture by Amino-Functionalized Ionic Liquids through the Formation of Intramolecular Hydrogen Bond. J. Phys. Chem. B, 2016, 120, 2807-2813.

4. Luo XY; Guo, Y; Zhao, HQ; Cui, GK; Li, HR; Wang, CM*. Significant improvements in CO₂ capture by pyridine-containing anion-functionalized ionic liquids through multiple site cooperative interactions. Angew. Chem. Int. Edit., 2014, 52, 6953-7057.

3. Luo XY; Ding, F; Lin, WJ; Qi, YQ; Li, HR; Wang, CM*. Efficient and energy-saving CO₂ capture through the entropic effect induced by the inter-molecular hydrogen bonding in anion-functionalized ionic liquids. J. Phys. Chem. Lett., 2014, 5, 381-386.

2.Wang, CM*; Luo XY; Zhu, X; Cui, GK; Jiang, DE; Deng, DS; Li, HR; Dai, S. The strategies for improving carbon dioxide chemisorption by functionalized ionic liquids. RSC Advances, 2013, 3, 15518-15527.

1. Wang, CM*; Luo XY; Luo, HM; Jiang, DE; Li, HR; Dai, S. Tuning the basicity of ionic liquids for equimolar CO₂ capture. Angew. Chem. Int. Edit. 2011, 50, 4918-4922.