Dual‐Ligand Zn‐Based Metal–Organic Framework as Reversible and Stable Anode Material for Next Generation Lithium‐Ion Batteries

Abstract: Metal–organic frameworks (MOFs) have received intensive scientific attention as electrode materials for lithium‐ion batteries because of their tailorable physical and chemical properties by incorporating different organic ligands. Herein, a zinc‐based MOF (Zn‐MOF) with a special dual‐ligand system, tris(4‐(1H‐1,2,4‐triazol‐1‐yl)phenyl)amine and dihydroxylterepthate, as anode material for lithium‐ion batteries is successfully fabricated. The activated Zn‐MOF based battery delivered a reversible and efficient li… Show more

“…Furthermore, Faraday's law can be applied to estimate the theoretical capacity of TPA-PNI anodes using the following equation: where C represents the theoretical capacity of TPA-PNI, n is the total number of electrons received, F is the Faraday constant (96 485 C mol −1 ), and M is the molecular mass of the repeating unit. 32,69,70 Hence, the theoretical capacity of PNI-1 , PNI-2 , and PNI-3 was estimated to be 1762, 1775, and 1775 mA h g −1 , respectively.…”

Redox-active polynaphthalimides as versatile electrode materials for high-voltage, high-rate and long-cycle-life organic Li-ion batteries

“…Furthermore, Faraday's law can be applied to estimate the theoretical capacity of TPA-PNI anodes using the following equation: where C represents the theoretical capacity of TPA-PNI, n is the total number of electrons received, F is the Faraday constant (96 485 C mol −1 ), and M is the molecular mass of the repeating unit. 32,69,70 Hence, the theoretical capacity of PNI-1 , PNI-2 , and PNI-3 was estimated to be 1762, 1775, and 1775 mA h g −1 , respectively.…”

Redox-active polynaphthalimides as versatile electrode materials for high-voltage, high-rate and long-cycle-life organic Li-ion batteries

“…The b value can be obtained from the slope of log i versus log v . If the b value is close to 0.5, it suggests that the half-infinite linear diffusion-controlled process dominated in the electrochemical process, and vice versa, when the b value is close to nearly 1, it suggests that the electrochemical process was mostly dominated by the surface-controlled process (capacitive effects). ,− As shown in Figure c, the b value of 2 was found to be 0.7789, slightly lower than that of 1 (0.8825). This indicates that 2 has a higher diffusion-controlled process than 1 .…”

Co- and Ni-Based Electroactive Metal–Organic Frameworks for Stable Lithium Storage: Electrochemical and Charge-Storage Behavior in Response to Different Metal Centers

“…represents the theoretical capacity of DiCN-aramids, n is the total electrons received, F is the Faraday constant (96 485 C mol −1 ), and M is the molecular mass of the repeating unit. 31,56,57 Therefore, the theoretical capacities of DiCN-Tpa, DiCN-Ether, and DiCN-6F were estimated to be nearly 1545, 1577, and 1280 mA h g −1 , respectively. Interestingly, although DiCN-Ether and DiCN-6F received similar amounts of Li-ions, the theoretical capacity of DiCN-6F was found to be the lowest of the other DiCN-aramid anodes.…”

High-performance aramid electrodes for high-rate and long cycle-life organic Li-ion batteries