Kidney injury molecule-1

Recently, surface plasmon resonance (SPR) effects have been widely used to construct photocatalysts which are active in the visible spectral region. Such plasmonic photocatalysts usually comprise a semiconductor material transparent in the visible range (such as TiO2) and plasmonic nano-objects (e.g., Au nanoparticles (Au NPs)). Specific SPRs, though, only partially cover the visible spectrum and feature weak light absorption. Here, we explore the unique role played by whispering gallery mode (WGM) resonances in the expression of the photocatalytic activity of plasmonic photocatalysts. Using numerical simulations, we demonstrate that, by solely exploiting a proper geometrical arrangement and WGM resonances in a TiO2 sphere, the plasmonic absorption can be extended over the entire visible range and can be increased by more than 40 times. Furthermore, the local electric field at the Au-TiO2 interface is also considerably enhanced. These results are experimentally corroborated, by means of absorption spectroscopy and Raman measurements. Accordingly, such WGM-assisted plasmonic photocatalysts, when employed in water splitting experiments, exhibit enhanced activity in the visible range. Our findings show a promising and straightforward way to design full solar spectrum photocatalysts.

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Plasmon enhanced upconverting core@triple-shell nanoparticles as recyclable panchromatic initiators (blue to infrared) for radical polymerization

Zhang

Huang

Jin

et al. 2019

Nanoscale Horiz.

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Analysis of External and Internal Disorder to Understand Band‐Like Transport in n‐Type Organic Semiconductors

et al. 2021

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Charge transport in organic semiconductors is notoriously extremely sensitive to the presence of disorder, both internal and external (i.e., related to interactions with the dielectric layer), especially for n‐type materials. Internal dynamic disorder stems from large thermal fluctuations both in intermolecular transfer integrals and (molecular) site energies in weakly interacting van der Waals solids and sources transient localization of the charge carriers. The molecular vibrations that drive transient localization typically operate at low‐frequency (

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On-line prognosis of fatigue cracking via a regularized particle filter and guided wave monitoring

Chen

Yuan

Jin

2019

Mechanical Systems and Signal Processing

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Plasmonic Au-Loaded Hierarchical Hollow Porous TiO₂ Spheres: Synergistic Catalysts for Nitroaromatic Reduction

Zhang

Jin

et al. 2018

J. Phys. Chem. Lett.

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Plasmonic Au nanoparticle (NP)-loaded hierarchical hollow porous TiO spheres are designed and synthesized with the purpose of enhancing the overall catalytic activity by introducing the Au plasmonic effect into the system, where Au NPs themselves are catalytically active. The constructed nanohybrid exhibits both high activity in 4-nitrophenol reduction, compared to all of the previously reported Au-based catalysts, and high selectivity. The synergy of the inherent catalytic property of Au NPs and the plasmonic effect (mainly via hot electron transfer) under irradiation is confirmed by a series of control experiments. The specifically designed, porous hollow structure also greatly contributes to the good catalytic activity because it provides a large surface area, facilitates reactant adsorption, and hinders charge recombination. In addition, theoretical calculations reveal that such a structure also leads to an increase in light absorption of about 21% in the range of 400-800 nm with respect to a uniform water-TiO background featuring the same filling factor. This work provides insight into the rational design of plasmon-enhanced catalysts that will show their versatility in various electro-/photocatalysis.

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Xin Jin

Engineering the Absorption and Field Enhancement Properties of Au–TiO₂ Nanohybrids via Whispering Gallery Mode Resonances for Photocatalytic Water Splitting

Plasmon enhanced upconverting core@triple-shell nanoparticles as recyclable panchromatic initiators (blue to infrared) for radical polymerization

Analysis of External and Internal Disorder to Understand Band‐Like Transport in n‐Type Organic Semiconductors

On-line prognosis of fatigue cracking via a regularized particle filter and guided wave monitoring

Plasmonic Au-Loaded Hierarchical Hollow Porous TiO₂ Spheres: Synergistic Catalysts for Nitroaromatic Reduction

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Xin Jin

Engineering the Absorption and Field Enhancement Properties of Au–TiO2 Nanohybrids via Whispering Gallery Mode Resonances for Photocatalytic Water Splitting

Plasmon enhanced upconverting core@triple-shell nanoparticles as recyclable panchromatic initiators (blue to infrared) for radical polymerization

Analysis of External and Internal Disorder to Understand Band‐Like Transport in n‐Type Organic Semiconductors

On-line prognosis of fatigue cracking via a regularized particle filter and guided wave monitoring

Plasmonic Au-Loaded Hierarchical Hollow Porous TiO2 Spheres: Synergistic Catalysts for Nitroaromatic Reduction

Contact Info

Product

Resources

About

Engineering the Absorption and Field Enhancement Properties of Au–TiO₂ Nanohybrids via Whispering Gallery Mode Resonances for Photocatalytic Water Splitting

Plasmonic Au-Loaded Hierarchical Hollow Porous TiO₂ Spheres: Synergistic Catalysts for Nitroaromatic Reduction