Improved carrier dynamics in nickel/urea-functionalized carbon nitride for ethanol photoreforming

Gunawan, Denny; Toe, Cui Ying; Sun, Kaiwen; Scott, Jason; Amal, Rose

doi:10.1007/s43630-022-00282-4

Cited by 10 publications

(1 citation statement)

References 46 publications

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“…Denny et al verified in the investigation of urea group functionalization that the addition of urea group functionalized carbon nitride considerably improved the carrier dynamics in carbon nitride photocatalysts (Urea-CN). [91] Urea-CN was found to have high-level crystallinity and specific surface area, which enables fast carrier migration and transfer. The material's ability to transmit electrons and holes during the oxidation of ethanol was therefore improved, and overall performance was improved thanks to the co-catalytic impact of Urea-CN and Ni.…”

Section: Role Of Urea Groupsmentioning

confidence: 99%

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C₃N₄

Wang

Cheng

Liao

et al. 2023

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In recent years, photocatalysis has received increasing attention in alleviating energy scarcity and environmental treatment, and graphite carbon nitride (g‐C3N4) is used as an ideal photocatalyst. However, it still remains numerous challenges to obtain the desirable photocatalytic performance of intrinsic g‐C3N4. Functional group functionalization, formed by introducing functional groups into the bulk structure, is one of the common modification techniques to modulate the carrier dynamics and increases the number of active sites, offering new opportunities to break the limits for structure‐to‐performance relationship of g‐C3N4. Nevertheless, the general overview of the advance of functional group modification of g‐C3N4 is less reported yet. In order to better understand the structure‐to‐performance relationship at the molecular level, a review of the latest development of functional group modification is urgently needed. In this review, the functional group modification of g‐C3N4 in terms of structures, properties, and photocatalytic activity is mainly focused, as well as their mechanism of reaction from the molecular level insights is explained. Second, the recent progress of the application of introducing functional groups in g‐C3N4 is introduced and examples are given. Finally, the difficulties and challenges are presented, and based on this, an outlook on the future research development direction is shown.

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Section: Role Of Urea Groupsmentioning

confidence: 99%

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C₃N₄

Wang

Cheng

Liao

et al. 2023

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Materials Advances in Photocatalytic Solar Hydrogen Production: Integrating Systems and Economics for a Sustainable Future

Gunawan,

Zhang,

et al. 2024

Advanced Materials

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Photocatalytic solar hydrogen generation, encompassing both overall water splitting and organic reforming, presents a promising avenue for green hydrogen production. This technology holds the potential for reduced capital costs in comparison to competing methods like photovoltaic‐electrocatalysis and photoelectrocatalysis, owing to its simplicity and fewer auxiliary components. However, the current solar‐to‐hydrogen efficiency of photocatalytic solar hydrogen production has predominantly remained low at ≈1–2% or lower, mainly due to curtailed access to the entire solar spectrum, thus impeding practical application of photocatalytic solar hydrogen production. This review offers an integrated, multidisciplinary perspective on photocatalytic solar hydrogen production. Specifically, the review presents the existing approaches in photocatalyst and system designs aimed at significantly boosting the solar‐to‐hydrogen efficiency, while also considering factors of cost and scalability of each approach. In‐depth discussions extending beyond the efficacy of material and system design strategies are particularly vital to identify potential hurdles in translating photocatalysis research to large‐scale applications. Ultimately, this review aims to provide understanding and perspective of feasible pathways for commercializing photocatalytic solar hydrogen production technology, considering both engineering and economic standpoints.

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Photoreforming Light Alcohols for Value‐Added Resources: A Mini Review

Liu,

Yin,

Guo

et al. 2024

Energy Tech

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Hydrogen gas as a clean energy source, it is a promising alternative to fossil fuels. Therefore, people are actively seeking effective ways to produce hydrogen to cope with the imminent global energy shortage. However, the current production of hydrogen relies on the catalytic reforming of fossil fuels, inducing inevitable environmental pollution. Alternatively, photocatalysis for produce hydrogen gas from reforming alcohols is a promising approach. Especially, other value‐added hydrocarbon products, such as acetone, acetaldehyde, acetic acid, etc., can also be produced during the photoreforming process of alcohols. Meanwhile, reducing the production of COx, making it an environmentally friendly conversion process. Outstandingly, TiO2 and its derivative are excellent photocatalysts. Among them, TiO2 cocatalyzed with noble metal can easily increase the H2 evolution rate to the mmol g−1 h−1 scale. Among the light alcohols isopropyl alcohol has fewer side reactions, methanol and ethanol have higher reaction rate, but they require to reduce the by‐product COx. In this review, the recent developments in this field are summarized; various studies regarding H2 evolution rate, illumination condition, quantum efficiency, etc., are compared; and the development prospects of this field, with the hope of sparking widespread research interest, are proposed.

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Improved carrier dynamics in nickel/urea-functionalized carbon nitride for ethanol photoreforming

Cited by 10 publications

References 46 publications

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C₃N₄

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C₃N₄

Materials Advances in Photocatalytic Solar Hydrogen Production: Integrating Systems and Economics for a Sustainable Future

Photoreforming Light Alcohols for Value‐Added Resources: A Mini Review

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Improved carrier dynamics in nickel/urea-functionalized carbon nitride for ethanol photoreforming

Cited by 10 publications

References 46 publications

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C3N4

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C3N4

Materials Advances in Photocatalytic Solar Hydrogen Production: Integrating Systems and Economics for a Sustainable Future

Photoreforming Light Alcohols for Value‐Added Resources: A Mini Review

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Product

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Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C₃N₄

Effect of Functional Group Modifications on the Photocatalytic Performance of g‐C₃N₄