Hybridization of CuO with BiVO₄ as an Efficient and Stable Photocatalyst for Selective Cleavage of Lignin C–C Bonds

Abstract: The solar-driven transformation of lignin into aromatic compounds is a promising approach for biomass utilization. However, selective cleavage of lignin C–C bonds on the solid catalyst surface under suitable conditions is a difficult task. Here, a CuO/BiVO4 hybrid was reported for the selective oxidation of C–C bonds under simulated sunlight at room temperature. The synergistic effect of CuO and BiVO4 benefited charge dynamics and transfer from the photoexcitation sites to the active centers. The model substra… Show more

“…With the optimized reaction conditions at hand, we were able to smoothly depolymerize typical β-O-4 models (1b–1f) in high C–C cleavage yields; the yields of 2b–2f and 3b–f were 83–94 and 85–90%, respectively. Notably, the degradation efficiency of the lignin β-O-4 model compound (1f) using this methodology increased by 20–40% when compared to a previously reported method. ,, These findings demonstrate the versatility of the mechanoenzymatic system in degrading a broad range of substrates with sufficient degradation ability.…”

“…Notably, the degradation efficiency of the lignin β-O-4 model compound (1f) using this methodology increased by 20−40% when compared to a previously reported method. 5,40,41 These findings demonstrate the versatility of the mechanoenzymatic system in degrading a broad range of substrates with sufficient degradation ability.…”

Novel Mechanoenzymatic Strategy for Lignin Depolymerization

“…With the optimized reaction conditions at hand, we were able to smoothly depolymerize typical β-O-4 models (1b–1f) in high C–C cleavage yields; the yields of 2b–2f and 3b–f were 83–94 and 85–90%, respectively. Notably, the degradation efficiency of the lignin β-O-4 model compound (1f) using this methodology increased by 20–40% when compared to a previously reported method. ,, These findings demonstrate the versatility of the mechanoenzymatic system in degrading a broad range of substrates with sufficient degradation ability.…”

“…Notably, the degradation efficiency of the lignin β-O-4 model compound (1f) using this methodology increased by 20−40% when compared to a previously reported method. 5,40,41 These findings demonstrate the versatility of the mechanoenzymatic system in degrading a broad range of substrates with sufficient degradation ability.…”

Novel Mechanoenzymatic Strategy for Lignin Depolymerization

“…The application of carbon materials in energy storage has become a hot topic due to their low cost, good conductivity, stability, and large specic surface area. [52][53][54][55] Especially, ligninbased carbon materials are widely applied in metal-ion and metal-air batteries as electrode materials. According to the energy storage mechanism, the role of lignin-based carbon in metal-air batteries and metal-ion batteries different.…”

Heteroatom-doped lignin-derived carbon material: performance and application

“…Zhang et al. 24 reported a CuO/BiVO 4 catalyst that could selectively cleave C α –C β bonds. With the photocatalyst, lignin β- O -4 linkages were broken to form aromatic compounds with a yield of 86.5%.…”

Multisite photocatalytic depolymerization of lignin model compound utilizing full-spectrum light over magnetic microspheres