Nickel Glyoximate Based Metal–Covalent Organic Frameworks for Efficient Photocatalytic Hydrogen Evolution

Abstract: Metal-covalent organic frameworks (MCOFs) have been recently received wide attention owing to the homogeneous distribution of active metal centers that are beneficial for enhancing the application potentials. However, metal complex based functional building blocks for MCOFs synthesis are limited. Herein, two new MCOFs (Ni-Py-COF and Ni-Bn-COF) were constructed via a novel nickel glyoximate based building block. Splendid photocatalytic activity on hydrogen evolution from water and great long-term recyclability … Show more

“…This conclusion is also consistent with our experimental results. 78 The results of the LSV for CTF-NWU-1 and CTF-NWU-2 photocatalysts are shown in Fig. 5c.…”

A thiazolo[5,4-d]thiazole functionalized covalent triazine framework showing superior photocatalytic activity for hydrogen production and dye degradation

“…This conclusion is also consistent with our experimental results. 78 The results of the LSV for CTF-NWU-1 and CTF-NWU-2 photocatalysts are shown in Fig. 5c.…”

A thiazolo[5,4-d]thiazole functionalized covalent triazine framework showing superior photocatalytic activity for hydrogen production and dye degradation

“…Exploration and utilization of green energy is essential to achieve the goal of carbon neutrality and emission peak. [1][2][3] Hydrogen energy is a clean energy that can store waste energy and promote the transformation from traditional fossil energy to green energy. Its energy density (140 MJ kg À 1 ) is 3 times of petroleum and 4.5 times of coal, which is regarded as a disruptive technology direction of future energy revolution.…”

Reconstruction of Highly Dense Cu−N₄Active Sites in Electrocatalytic Oxygen Reduction Characterized by Operando Synchrotron Radiation

“…The higher performance of RuCOF-TPB as compared to the other two materials could be ascribed to the cumulative effect of its broader light absorption range (Figure 4a), more efficient photoinduced electron-hole separation (Figures 4c and S46), and higher hydrophilicity (Figure S47). Noteworthily, the HER activity of RuCOF-TPB is far superior to most of the reported MCOFs and COFs (Table S2), such as NiÀ BnÀ COF [25] (1805 μmol g À 1 h À 1 ), sp 2 c-COF [41] (1360 μmol g À 1 h À 1 ) and COF-DFB [42] (2120 μmol g À 1 h À 1 ). Moreover, the apparent quantum efficiency of RuCOF-TPB measuring at 420 nm was 6.95 %, which is also higher than most of the reported COF-based photocatalysts (Table S2).…”

Integrating Light‐Harvesting Ruthenium(II)‐based Units into Three‐Dimensional Metal Covalent Organic Frameworks for Photocatalytic Hydrogen Evolution