Journal ArticleDOI
CO2 photo-reduction: insights into CO2 activation and reaction on surfaces of photocatalysts
TLDR
In this article, a review describes recent advances in the fundamental understanding of CO2 photoreduction on the surface of heterogeneous catalysts and particularly provides an overview of enhancing the adsorption/activation of CO 2 molecules.Abstract:
Large amounts of anthropogenic CO2 emissions associated with increased fossil fuel consumption have led to global warming and an energy crisis. The photocatalytic reduction of CO2 into solar fuels such as methane or methanol is believed to be one of the best methods to address these two problems. In addition to light harvesting and charge separation, the adsorption/activation and reduction of CO2 on the surface of heterogeneous catalysts remain a scientifically critical challenge, which greatly limits the overall photoconversion efficiency and selectivity of CO2 reduction. This review describes recent advances in the fundamental understanding of CO2 photoreduction on the surface of heterogeneous catalysts and particularly provides an overview of enhancing the adsorption/activation of CO2 molecules. The reaction mechanism and pathways of CO2 reduction as well as their dependent factors are also analyzed and discussed, which is expected to enable an increase in the overall efficiency of CO2 reduction through minimizing the reaction barriers and controlling the selectivity towards the desired products. The challenges and perspectives of CO2 photoreduction over heterogeneous catalysts are presented as well.read more
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A novel nanocomposite of mesoporous silica supported Ni nanocrystals modified by ceria clusters with extremely high light-to-fuel efficiency for UV-vis-IR light-driven CO2 reduction
Abstract: A novel nanocomposite of mesoporous silica supported Ni nanocrystals modified by ceria clusters was synthesized by a facile approach. The nanocomposite exhibits high photothermocatalytic activity for CO2 reduction by CH4 to produce CO and H2 (CRM) under focused UV-visible-infrared illumination without using any additional heater. Extremely high H2 and CO production rates (33.42 and 41.53 mmol min−1 g−1) as well as an extraordinarily high light-to-fuel efficiency of 27.4% are achieved. The nanocomposite also has efficient CRM photothermocatalytic activity even under focused λ > 690 nm visible-infrared illumination. It is discovered that the ceria cluster modification of Ni nanocrystals markedly improves the photothermocatalytic activity and durability. The excellent CRM photothermocatalytic activity is ascribed to highly effective light-driven thermocatalytic CRM due to the photothermal conversion across the entire solar spectrum and good CRM thermocatalytic activity of the nanocomposite. A novel photoactivation is discovered to markedly enhance the light-driven thermocatalytic activity. Based on the experimental results of TG-MS, XRD, TEM, in situ FTIR spectroscopy, Raman spectroscopy, and isotope labelling together with the DFT calculations, we reveal the origin of the markedly enhanced photothermocatalytic activity and durability as well as the novel photoactivation. Oxygen of ceria clusters in the nanocomposite participates in CRM on Ni nanocrystals, which markedly decreases the activation energies of the oxidation of C* and CH* species as CRM dominant steps. The focused illumination considerably reduces the activation energy of CRM on the nanocomposite, thus markedly enhancing the photothermocatalytic activity.
Journal ArticleDOI
Synthesis of Au@TiO2 core–shell nanoparticles with tunable structures for plasmon-enhanced photocatalysis
TL;DR: In this article, a simple and universal method has been developed for the preparation of plasmonic Au@TiO2 core-shell nanoparticles, which can efficiently expand light absorption and accelerate electron hole separation thus improving the photocatalytic efficiency.
Journal ArticleDOI
Von Sonnenlicht zu Brennstoffen: aktuelle Fortschritte der C1‐Solarchemie
Guangbo Chen,Guangbo Chen,Geoffrey I. N. Waterhouse,Run Shi,Jiaqing Zhao,Zhenhua Li,Li-Zhu Wu,Chen-Ho Tung,Tierui Zhang +8 more
Journal ArticleDOI
Enhanced photocatalytic reduction of CO2 to CO over BiOBr assisted by phenolic resin-based activated carbon spheres
TL;DR: In this article, activated carbon spheres (ACSs) were obtained via carbonization and steam activation of phenolic resin-based carbon spheres at 850 °C synthesized by suspension polymerization.
Journal ArticleDOI
CO2 and water activation on ceria nanocluster modified TiO2 rutile (110)
Stephen Rhatigan,Michael Nolan +1 more
TL;DR: In this article, the impact of surface modification on key properties governing the performance of photocatalysts, including light absorption, photoexcited charge carrier separation, reducibility and surface reactivity, was studied.
References
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Heterogeneous photocatalyst materials for water splitting
Akihiko Kudo,Yugo Miseki +1 more
TL;DR: This critical review shows the basis of photocatalytic water splitting and experimental points, and surveys heterogeneous photocatalyst materials for water splitting into H2 and O2, and H2 or O2 evolution from an aqueous solution containing a sacrificial reagent.
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Solar Water Splitting Cells
Michael G. Walter,Emily L. Warren,James R. McKone,Shannon W. Boettcher,Qixi Mi,Elizabeth A. Santori,Nathan S. Lewis +6 more
TL;DR: The biggest challenge is whether or not the goals need to be met to fully utilize solar energy for the global energy demand can be met in a costeffective way on the terawatt scale.
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Powering the planet: Chemical challenges in solar energy utilization
Nathan S. Lewis,Daniel G. Nocera +1 more
TL;DR: Solar energy is by far the largest exploitable resource, providing more energy in 1 hour to the earth than all of the energy consumed by humans in an entire year, and if solar energy is to be a major primary energy source, it must be stored and dispatched on demand to the end user.
Journal ArticleDOI
Recent advances in semiconductors for photocatalytic and photoelectrochemical water splitting
TL;DR: This introductory review covers the fundamental aspects of photocatalytic and photoelectrochemical water splitting and recent advances in the water splitting reaction under visible light will be presented with a focus on non-oxide semiconductor materials to give an overview of the various problems and solutions.
Journal ArticleDOI
Nano‐photocatalytic Materials: Possibilities and Challenges
TL;DR: This article reviews state-of-the-art research activities in the field, focusing on the scientific and technological possibilities offered by photocatalytic materials, and highlights crucial issues that should be addressed in future research activities.