Rixin Peng scite author profile

Electrocatalytic valorization of biomass derivatives can be powered by electricity generated from renewable sources such as solar and wind energy. A shift from centralized, high‐temperature, and energy‐intensive processes to decentralized, low‐temperature conversions is achieved, which meets the requirement of sustainable energy generation. This approach provides an efficient, green, and additive‐free strategy for biomass derivative valorization, in which product selectivity could be easily regulated by the applied potential and electrocatalyst utilized. However, a scale‐up application is still far from being completed due to the inability of conversion rates and selectivity to meet the industrialization requirements. A better understanding of the reaction mechanism and the development of high‐efficiency and high‐selectivity electrocatalysts are required to pave the path toward larger industrialization applications. Herein, we summarize the recent research progress in the electrocatalytic oxidation and hydrogenation of platform compounds such as furanic compounds and glycerol. In the literature, these three research areas are integrated to realize the scale‐up application of the processes as mentioned above. The investigations of the mechanism are based on in situ techniques, theoretical calculations, and advanced electrocatalyst studies. Finally, the challenges and prospects in this topic are described. We expect that this review will provide the fundamental understanding and design guidelines to achieve efficient and high‐selectivity catalysts and further facilitate the scale‐up application of the electrocatalytic conversion of biomass derivatives.

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Removal Mechanism of Tungsten CMP Process: Effect of Slurry Abrasive Concentration and Process Temperature

Wang¹,

Peng²,

Xia³

et al. 2012

ECS Trans.

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This work studied the removal mechanism of a tungsten chemical mechanical planarization (CMP) process on a dual head polishing platform. The two key parameters studied were slurry abrasive concentration and process temperature. The removal rate was observed to scale with the cubic root of the abrasive concentration. The polishing temperature showed a linear relation with the removal rate in the temperature controlled experiment. A potential mechanism was explored for the removal of the tungsten film to explain the experimental results.

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Anodic Electrosynthesis of Amide from Alcohol and Ammonia

Zhou

et al. 2024

CCS Chem

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Cationic vacancies accelerate the generation of CoOOH in perovskite hydroxides for the electrooxidation of biomass

et al. 2023

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Tungsten CMP Process on a Dual Head Polishing Platform: Effect of Slurry Abrasive Concentration and Process Temperature

Wang¹,

Peng²,

Xia³

et al. 2011

Meet. Abstr.

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Rixin Peng

Recent Progress on Electrocatalytic Valorization of Biomass‐Derived Organics

Removal Mechanism of Tungsten CMP Process: Effect of Slurry Abrasive Concentration and Process Temperature

Anodic Electrosynthesis of Amide from Alcohol and Ammonia

Cationic vacancies accelerate the generation of CoOOH in perovskite hydroxides for the electrooxidation of biomass

Tungsten CMP Process on a Dual Head Polishing Platform: Effect of Slurry Abrasive Concentration and Process Temperature

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