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The Influence of the Co/Cu Ratio and Organic Ligand in MOF/Copper Phthalocyanine-Derived Tandem Electrocatalysts on the Electrocatalytic Nitrate Reduction Reaction
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[2] Qin Ling, Liu Qiang, Liu Jian-Guo, Wang Ya-Nan, An Jin-Long, Li Bo-Wen, Liu Xiao-Wen, Zhang Yong-Liang. The N–H/O–H bonds in MOF-based catalysts determining the electrocatalytic nitrate reduction performance. International Journal of Hydrogen Energy, 2026, 236: 155206
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[3] Qin Ling, Zhao Ying-Xin, Wang Ya-Nan, An Jin-Long, Liu Qiang, and Zheng He-Gen. The Effects of Ligands with Different Electron Donation on the Nitrogen Reduction Performance of Constructed Co-MOFs: NH3 or N2H4? Small Methods, 2025, 9: 2401603
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[4] Qin Ling,* Liu Qiang, Wang Ya-Nan, An Jin-Long, Zhang Mao-Feng, and Shi Cheng-Wu. Directional Design of the Pyridine Ligand Functional Block to Improve the Electrocatalytic Nitrate Reduction Performance of the Co-MOFs. Inorganic Chemsitry, 2025, 64, 14012−14019.
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[5] Qin Ling*, Zhao Ying-Xin, Liu Qiang, An Jin-Long, Zhang Mao-Feng, Shi Cheng-Wu, Zheng He-Gen. Directional design of the pyridine ligand functional block fine-tuned hydrophobicity to improve the electrocatalytic nitrogen fixation performance of the Co/Ni based MOFs-derived materials. International Journal of Hydrogen Energy, 2024, 65: 648-658.
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[6] Qin Ling*, Zhou Xiao-Yan, Zhao Ying-Xin, An Jin-Long, Huang Jing-Yu, Chen Wang-Chao, Zhang Ming-Dao. Optimizing electrocatalytic hydrogen evolution performance of derived materials by using organic ligands containing sulfur elements for Co-MOF. International Journal of Hydrogen Energy, 2024, 51: 1225-1235.
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[7] Qin Ling*, Zhao Ying-Xin, Liu Qiang, An Jin-Long, Wang Han-Xi, Zhang Mao-Feng, Shi Cheng-Wu, Zheng He-Gen. Tuning the organic ligands to optimize the nitrogen reduction performance of Co(II) or Ni(II)-based MOFs. Materials Chemistry Frontiers, 2024, 8: 3203-3213.
