Dr. Shun Lu received his Ph.D. degree from South Dakota State University in Aug. 2021 and joined the Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences in Dec. 2021 as an Assistant Professor and Associate Professor. He is mainly engaged in the rational design of conjugated molecular catalysts, metal clusters and other molecular materials and their applications in the environment and energy science. Dr. Lu has published more than 100 SCI papers in mainstream journals, including 8 ESI 1% highly cited papers, 5 cover papers, and received more than 2,000 citations, and an H-index of 30. Invited to write 3 chapters (RSC, Elsevier, IntechOpen); In 2024, he selected into the Stanford-Elsevier world's top 2% scientists list; He has served as an excellent editorial board member, young editorial board member, guest editor of many journals such as Industrial Chemistry & Materials (RSC), Tungsten (Springer), Instrumentation, conference paper reviewer, and professional reviewer and arbitration expert of more than 80 journals.

Environmental electrochemistry, conjugated molecular catalysis, fluorescent clusters

1. Shun Lu et al. Conductive phthalocyanine-based metal-organic frameworks for efficient electrocatalysis. Progress in Chemistry 36 (3), 2024, 285-296

2. Shun Lu et al. Triphenylamine-substituted Ni(II) porphyrins for urea electro-oxidation. Inorganic Chemistry 63 (44), 2024, 20929-20934 

3. Shun Lu et al. Energy-saving hydrogen production by heteroatom modulations coupling urea electrooxidation. EcoMat 6 (8), 2024, e12477

4. Shun Lu et al. Bimetallic platinum-nickel nanoparticles modified on the screen-printed electrode for highly sensitive urea determination. IEEE Sensors Journal 24 (4), 2024, 4221-4227

5. Shun Lu et al. Molecular doping on carbon nitride for efficient photocatalytic hydrogen production. Langmuir 40 (26), 2024, 13331-13338

6. Shun Lu et al. Highly efficient urea oxidation via nesting nano-nickel oxide in eggshell membrane-derived carbon. ACS Sustainable Chemistry & Engineering 9 (4), 2021, 1703-1713

7. Xiaoqing Liu et al. Persistent free radicals on biochar for its catalytic capability: A review. Water Research 250, 2024, 120999 

8. Li Li et al. Band gap engineering and lattice distortion for synergetic tuning optical properties of NaNbO3 toward enhanced piezo-photocatalytic activity. Inorganic Chemistry 63 (25), 2024, 11745–11756 

9. Lili Yuan et al. Ligand-induced red-emitting copper nanoclusters for selective fluorescence determination of aluminum ions. Inorganic Chemistry 63 (35), 2024, 16177-16185 

10. Lili Yuan et al. Biomass-derived carbon dots as emerging visual platforms for fluorescent sensing. Environmental Research, 251, 2024, 118610