2021
DOI: 10.1039/d0cs01146k
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Periodic nanostructures: preparation, properties and applications

Abstract: This review has summarized and discussed the recent advances of periodic nanostructures, consisting of multiple identical nano units/components periodically arranged in good order, from their preparation and properties to applications.

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Cited by 43 publications
(36 citation statements)
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“…Therefore, future studies should also more broadly consider the combination of multiple strategies to improve the activity of photocatalysts, [232,233] such as introducing cocatalysts on heterojunction photocatalysts, [81] constructing functional group modification and defects on the surface of semiconductors, [15,93,232,233] nanocatalysts phase engineering, [234,235] local surface plasmonic enhancement, [236][237][238][239] and superlattice architectures. [240] At the same time, it is necessary to conduct rigorous investigations to examine the specific interactions and synergies between the multiple strategies employed and establish structure-activity relationships, including quantitative elucidation of mass transport effects and intrinsic chemical kinetics. [241] In tandem with the pursuit of photocatalysts with improved CH 4 selectivity and yield, the overall process sustainability should also be an important concern, especially given the need for industrial application on a large scale to achieve carbon neutrality.…”
Section: Discussionmentioning
confidence: 99%
“…Therefore, future studies should also more broadly consider the combination of multiple strategies to improve the activity of photocatalysts, [232,233] such as introducing cocatalysts on heterojunction photocatalysts, [81] constructing functional group modification and defects on the surface of semiconductors, [15,93,232,233] nanocatalysts phase engineering, [234,235] local surface plasmonic enhancement, [236][237][238][239] and superlattice architectures. [240] At the same time, it is necessary to conduct rigorous investigations to examine the specific interactions and synergies between the multiple strategies employed and establish structure-activity relationships, including quantitative elucidation of mass transport effects and intrinsic chemical kinetics. [241] In tandem with the pursuit of photocatalysts with improved CH 4 selectivity and yield, the overall process sustainability should also be an important concern, especially given the need for industrial application on a large scale to achieve carbon neutrality.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, reliable and sufficient data sources are critical for ML assistance in CO 2 RR, and there is a current lack of sufficiently diverse and extensive experimental datasets for model training and validation. The experimental complexity grows exponentially with the number of variables, limiting most searches to narrow regions of the material space 49,60,61 . Therefore, designing materials directly by trial and error is costly.…”
Section: Challenges Of ML In Electrocatalyst For Co2 Reductionmentioning
confidence: 99%
“…The experimental complexity grows exponentially with the number of variables, limiting most searches to narrow regions of the material space. 49,60,61 Therefore, designing materials directly by trial and error is costly. Interestingly, the emergence of high-throughput experiments performed by robotic chemists, 49 chemical synthesis machines, 62 and a programmable system of materials synthesis 63 could pave a new way for the generation of high-quality datasets.…”
Section: Challenges Of ML In Electrocatalyst For Co 2 Reductionmentioning
confidence: 99%
“…Recently, a series of breakthroughs have been accomplished by tuning the physicochemical properties of materials to screen the best catalytic ability as the universally accepted modification strategy. [ 6,7 ] Moreover, the Sabatier principle states that the catalytic performance relies heavily on the adsorption strength of the reactants, intermediates and products on the catalyst surface. [ 8 ] Simultaneously, many descriptors have proposed the four‐electron charge transfer steps on surface‐active sites according to the volcano‐shaped, such as Fermi level, charge‐transfer energy, orbital occupancy.…”
Section: Introductionmentioning
confidence: 99%