• Journal Papers


48) Tong, L.; Duan, L.; Zhou, A.; Randolph P. T.  First-row transition metal polypyridine complexes that catalyze proton to hydrogen reduction.  Coordination Chemistry Reviews 402 (2020) 213079

47) Zang, W.; Yang, T.; Zou, H.; Xi, S.; Zhang, H.; Liu, X.; Kou, Z.; Du, Y.; Feng, Y.; Shen, L.; Duan, L.*; Wang, J.; Stephen J. P. Copper Single Atoms Anchored in Porous Nitrogen-Doped Carbon as Efficient pH-Universal Catalysts for the Nitrogen Reduction Reaction. ACS Catalysis.2019,9,10166-10173

46) Zou, H.; Rong, W.; Long, B.; Ji, Y., Duan, L. Corrosion-induced Cl-doped ultrathin graphdiyne towards electrocatalytic nitrogen reduction at ambient conditions. ACS Catal. 2019, 9, 10649-10655

45) Pan, H.; Duan, L.; Liao R. Capturing the role of phosphate in the Ni‐PY5 catalyzed water oxidation. ChemCatChem. 2019,11,1-9

44) Li, F.;* Xu, R.; Nie, C.; Wu, X.; Zhang, P.; Duan, L.; Sun, L.  Dye-sensitized LaFeO3 photocathode for solar-driven H2 generation.   2019, 55, 12940--12943. 

43) Zou,H.; Li,G., Duan, L.; Koua,Z.;  Wang,John. In situ coupled amorphous cobalt nitride with nitrogen-doped graphene aerogel as a trifunctional electrocatalyst towards Zn-air battery deriven full water splitting.  Applied Catalysis B: Environmental. 2019,259,118100.

42) Yang, J.; An,J.; Tong, L.; Long,B.; Fan,T.;and Duan, L.Sulfur Coordination Effects on the Stability and Activity of a Ruthenium-Based Water Oxidation Catalyst.  Inorg. Chem. 2019, 58, 3137-3144. 


41)Daniel, Q.; Duan, L.; Timmer, B. J. J.; Chen, H.; Luo, X.; Ambre, R.; Wang, Y.; Zhang, B.; Zhang, P.; Wang, al. Water Oxidation Initiated by In Situ Dimerization of the Molecular Ru(pdc) Catalyst. ACS Catal. 2018, 8, 4375-4382.


41)Daniel, Q.; Duan, L.; Timmer, B. J. J.; Chen, H.; Luo, X.; Ambre, R.; Wang, Y.; Zhang, B.; Zhang, P.; Wang, al. Water Oxidation Initiated by In Situ Dimerization of the Molecular Ru(pdc) Catalyst. ACS Catal. 2018, 8, 4375-4382.


40)Zhang, P.; Chen, H.; Wang, M.; Yang, Y.; Jiang, J.; Zhang, B.; Duan, L.; Daniel, Q.; Li, F.; Sun, L. Gas-templating of hierarchically structured Ni-Co-P for efficient electrocatalytic hydrogen evolution. J Mater Chem A 2017, 5, 7564-7570.

39)Fan, T.; Duan, L.; Huang, P.; Chen, H.; Daniel, Q.; Ahlquist, M. S. G.; Sun, L. The Ru-tpc Water Oxidation Catalyst and Beyond: Water Nucleophilic Attack Pathway versus Radical Coupling Pathway. ACS Catal. 2017, 7, 2956-2966.

38)Daniel, Q.; Huang, P.; Fan, T.; Wang, Y.; Duan, L.; Wang, L.; Li, F.; Rinkevicius, Z.; Mamedov, F.; Ahlquist, M. S. al. Rearranging from 6- to 7-coordination initiates the catalytic activity: An EPR study on a Ru-bda water oxidation catalyst. Coord. Chem. Rev. 2017, 346, 206-215.


37)Wang, L.; Duan, L.; Ambre, R. B.; Daniel, Q.; Chen, H.; Sun, J.; Das, B.; Thapper, A.; Uhlig, J.; Dinér, al. A nickel (II) PY5 complex as an electrocatalyst for water oxidation. J. Catal. 2016, 335, 72-78.

36)Wang, L.; Chen, H.; Daniel, Q.; Duan, L.; Philippe, B.; Yang, Y.; Rensmo, H.; Sun, L. Promoting the Water Oxidation Catalysis by Synergistic Interactions between Ni(OH)2 and Carbon Nanotubes. Adv. Energy Mater. 2016, 6, 1600516.

35)Duan, L.; Manbeck, G. F.; Kowalczyk, M.; Szalda, D. J.; Muckerman, J. T.; Himeda, Y.; Fujita, E. Noninnocent Proton-Responsive Ligand Facilitates Reductive Deprotonation and Hinders CO2 Reduction Catalysis in [Ru(tpy)(6DHBP)(NCCH3)]2+ (6DHBP = 6,6′-(OH)2bpy). Inorg. Chem. 2016, 55, 4582-4594.

34)Daniel, Q.; Wang, L.; Duan, L.; Li, F.; Sun, L. Tailored design of ruthenium molecular catalysts with 2,2'-bypyridine-6,6'-dicarboxylate and pyrazole based ligands for water oxidation. Dalton T. 2016, 45, 14689-14696.

33)Ambre, R. B.; Daniel, Q.; Fan, T.; Chen, H.; Zhang, B.; Wang, L.; Ahlquist, M. S. G.; Duan, L.; Sun, L. Molecular engineering for efficient and selective iron porphyrin catalysts for electrochemical reduction of CO2 to CO. Chem. Commun. 2016, 52, 14478-14481.

Copyright © 2018 All Rights Reserved.