Renewable formate from sunlight, biomass and carbon dioxide in a photoelectrochemical cell

Pan, Yuyang; Zhang, Huiyan; Zhang, Bowen; Gong, Feng; Feng, Jianyong; Huang, Huiting; Vanka, Srinivas; Fan, Ronglei; Cao, Qi; Shen, Mingrong; Li, Zhaosheng; Zou, Zhigang; Xiao, Rui; Chu, Sheng Yuan

doi:10.1038/s41467-023-36726-3

Cited by 55 publications

(32 citation statements)

References 51 publications

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“…49 This underscores an opportune domain for advancement, ideally involving the development of a bifunctional electrocatalyst, thereby opening avenues for further enhancements in this burgeoning eld. [50][51][52]…”

Section: Co-coupling Of Anode and Cathode For Concurrent Production O...mentioning

confidence: 99%

Simultaneous upcycling of PET plastic waste and CO₂ reduction through Co-electrolysis: a novel approach for integrating CO₂ reduction and PET hydrolysate oxidation

Kilaparthi,

Addad,

Barras

et al. 2023

J. Mater. Chem. A

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Section: Co-coupling Of Anode and Cathode For Concurrent Production O...mentioning

confidence: 99%

Simultaneous upcycling of PET plastic waste and CO₂ reduction through Co-electrolysis: a novel approach for integrating CO₂ reduction and PET hydrolysate oxidation

Kilaparthi,

Addad,

Barras

et al. 2023

J. Mater. Chem. A

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“…9e). 280 A series of raw-biomass-derived glucose solutions could be selectively converted into formate over NiOOH/a-Fe 2 O 3 , with high productivity and faradaic efficiency (Fig. 9f-h).…”

Section: Glucosementioning

confidence: 99%

Electroreforming injects a new life into solid waste

Ma,

Zhang,

Yuan

et al. 2023

EES. Catal.

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“…Furthermore, produced H 2 is the cleanest energy with very high calorific demand in the 21st century (Figure 11b). 211,212 Most previous studies used electrocatalysts deposited on porous substrates (e.g., 3D Ni foam, 213,214 3D Co foam, 215 and carbon paper 216 ) with high surface areas to achieve high HMF oxidation performance. Some researchers also used precatalysts.…”

Section: Aldehydes Oxidation Reactionmentioning

confidence: 99%

Review and Perspective of Nickel and Its Derived Catalysts for Different Electrochemical Synthesis Reactions in Alkaline Media for Hydrogen Production

Samanta,

Shekhawat,

Sahu

et al. 2023

Energy Fuels

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Hydrogen (H 2 ) is a promising alternative energy source, but its current production method through steam reforming is energy intensive and polluting. Water electrolysis, specifically the oxygen evolution reaction (OER) and hydrogen evolution reaction (HER), offers a cleaner option. Although HER is the favorable process, OER needs a larger overpotential, thereby hindering practical implementation. The use of expensive noble metal-based catalysts limits the application. The levelized cost of hydrogen can be lowered by replacing the anodic reaction with several innovative strategies. Alternative oxidation reactions have emerged as some of the most noteworthy new strategies. A critical analysis of electrochemical synthesis reactions (ESR) combining anodic chemical synthesis and cathodic hydrogen evolution is presented here for replacing the traditional OER with organic molecule oxidation. This review aims to explore nickel and nickel-based catalysts for different ESR reactions, such as alcohol, aldehydes, amines, and biomass-derived compounds, for energyefficient and cost-effective electrocatalytic hydrogen production. In this critical review, we present a clear picture of the challenges and bottlenecks associated with electrochemical synthesis reactions as a method of industrial hydrogen production needs. Finally, a perspective and challenges for future development of the hybrid water electrolysis techniques are demonstrated.

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Renewable formate from sunlight, biomass and carbon dioxide in a photoelectrochemical cell

Cited by 55 publications

References 51 publications

Simultaneous upcycling of PET plastic waste and CO₂ reduction through Co-electrolysis: a novel approach for integrating CO₂ reduction and PET hydrolysate oxidation

Simultaneous upcycling of PET plastic waste and CO₂ reduction through Co-electrolysis: a novel approach for integrating CO₂ reduction and PET hydrolysate oxidation

Electroreforming injects a new life into solid waste

Review and Perspective of Nickel and Its Derived Catalysts for Different Electrochemical Synthesis Reactions in Alkaline Media for Hydrogen Production

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Renewable formate from sunlight, biomass and carbon dioxide in a photoelectrochemical cell

Cited by 55 publications

References 51 publications

Simultaneous upcycling of PET plastic waste and CO2 reduction through Co-electrolysis: a novel approach for integrating CO2 reduction and PET hydrolysate oxidation

Simultaneous upcycling of PET plastic waste and CO2 reduction through Co-electrolysis: a novel approach for integrating CO2 reduction and PET hydrolysate oxidation

Electroreforming injects a new life into solid waste

Review and Perspective of Nickel and Its Derived Catalysts for Different Electrochemical Synthesis Reactions in Alkaline Media for Hydrogen Production

Contact Info

Product

Resources

About

Simultaneous upcycling of PET plastic waste and CO₂ reduction through Co-electrolysis: a novel approach for integrating CO₂ reduction and PET hydrolysate oxidation

Simultaneous upcycling of PET plastic waste and CO₂ reduction through Co-electrolysis: a novel approach for integrating CO₂ reduction and PET hydrolysate oxidation