A Green and Efficient Synthesis Method of Benzo[c]cinnolines: Electrochemical Reduction of 2,2’‐Dinitrobiphenyl in the Presence of CO<sub>2</sub>

Meng, Ru; Feng, Li; Li, Dan; Jin, Baokang

doi:10.1002/celc.202101381

ChemElectroChem

2022

DOI: 10.1002/celc.202101381

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A Green and Efficient Synthesis Method of Benzo[c]cinnolines: Electrochemical Reduction of 2,2’‐Dinitrobiphenyl in the Presence of CO₂

Ru Meng

Li Feng

Dan Li

et al.

Abstract: Benzo[c]cinnolines are an essential framework material in medicinal chemistry owing to its promising anti-cancer and antioxidant activity, and good pharmacological properties. Accordingly, benzo[c]cinnolines are synthesized through electrochemical reduction of 2,2'-dinitrobiphenyl (DNBP) in aprotic solvents with CO 2 . Cyclic voltammetry (CV), cyclic voltabsorptometry (CVA), derivative cyclic voltabsorptometry (DCVA) techniques, and in-situ FT-IR spectroelectrochemistry are used to investigate the mechanism of… Show more

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2024

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Cited by 3 publications

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Photo-Energized MoS2/CNT Cathode for High-Performance Li–CO2 Batteries in a Wide-Temperature Range

Hu,

Lian,

et al. 2024

Nano-Micro Lett.

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Li–CO2 batteries are considered promising energy storage systems in extreme environments such as Mars; however, severe performance degradation will occur at a subzero temperature owning to the sluggish reaction kinetics. Herein, a photo-energized strategy adopting sustainable solar energy in wide working temperature range Li–CO2 battery was achieved with a binder-free MoS2/carbon nanotube (CNT) photo-electrode as cathode. The unique layered structure and excellent photoelectric properties of MoS2 facilitate the abundant generation and rapid transfer of photo-excited carriers, which accelerate the CO2 reduction and Li2CO3 decomposition upon illumination. The illuminated battery at room temperature exhibited high discharge voltage of 2.95 V and mitigated charge voltage of 3.27 V, attaining superior energy efficiency of 90.2% and excellent cycling stability of over 120 cycles. Even at an extremely low temperature of − 30 °C, the battery with same electrolyte can still deliver a small polarization of 0.45 V by the photoelectric and photothermal synergistic mechanism of MoS2/CNT cathode. This work demonstrates the promising potential of the photo-energized wide working temperature range Li–CO2 battery in addressing the obstacle of charge overpotential and energy efficiency.

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Photo-Energized MoS2/CNT Cathode for High-Performance Li–CO2 Batteries in a Wide-Temperature Range

Hu,

Lian,

et al. 2024

Nano-Micro Lett.

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Efficient electrochemical synthesis of phenylacetic acid derivatives: Utilizing CO2 for sustainable production

Dong,

Sun,

Niu

et al. 2024

International Journal of Electrochemical Science

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Synthesis of Benzo[c]cinnolinium Salts from 2-Azobiaryls by Copper(II) or Electrochemical Oxidation

Hsiao,

Li,

Vedarethinam

et al. 2024

Org. Lett.

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Synthesis of benzo[c]cinnolinium salts by copper-(II)-promoted or electrochemical oxidation of 2-azobiaryls is described. A variety of diversely functionalized benzo[c]cinnolinium salts were easily constructed by this strategy with excellent functional group tolerance and high efficiency. An interesting fluorescence centered at 571 nm is revealed by a benzo[c]cinnolinium salt with electron push−pull substitutions. The mechanism is proposed to go through single-electron transfer driven by oxidant and intramolecular cyclization via nucleophilic addition, followed by an anion exchange.

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A Green and Efficient Synthesis Method of Benzo[c]cinnolines: Electrochemical Reduction of 2,2’‐Dinitrobiphenyl in the Presence of CO₂

Cited by 3 publications

References 30 publications

Photo-Energized MoS2/CNT Cathode for High-Performance Li–CO2 Batteries in a Wide-Temperature Range

Photo-Energized MoS2/CNT Cathode for High-Performance Li–CO2 Batteries in a Wide-Temperature Range

Efficient electrochemical synthesis of phenylacetic acid derivatives: Utilizing CO2 for sustainable production

Synthesis of Benzo[c]cinnolinium Salts from 2-Azobiaryls by Copper(II) or Electrochemical Oxidation

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Product

Resources

About

A Green and Efficient Synthesis Method of Benzo[c]cinnolines: Electrochemical Reduction of 2,2’‐Dinitrobiphenyl in the Presence of CO2

Cited by 3 publications

References 30 publications

Photo-Energized MoS2/CNT Cathode for High-Performance Li–CO2 Batteries in a Wide-Temperature Range

Photo-Energized MoS2/CNT Cathode for High-Performance Li–CO2 Batteries in a Wide-Temperature Range

Efficient electrochemical synthesis of phenylacetic acid derivatives: Utilizing CO2 for sustainable production

Synthesis of Benzo[c]cinnolinium Salts from 2-Azobiaryls by Copper(II) or Electrochemical Oxidation

Contact Info

Product

Resources

About

A Green and Efficient Synthesis Method of Benzo[c]cinnolines: Electrochemical Reduction of 2,2’‐Dinitrobiphenyl in the Presence of CO₂