Using Metal-Multilayer-Dielectric Structure to Increase Sensitivity of Surface Plasmon Resonance Sensor

Ilchenko, S.G.; Lymarenko, Ruslan A.; Taranenko, V. B.

doi:10.1186/s11671-017-2073-1

Cited by 18 publications

(2 citation statements)

References 14 publications

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“…Other than Si anode, transition metal oxides have gained prominence owing to their theoretical capacities ranging from 500 to 1000 mAh/g. Transition metal oxides offer high safety, environmental friendliness, low cost, and high theoretical capacity, making them attractive for various applications including batteries. − In addition, Graphene, a novel material, finds wide-ranging applications in energy storage, electronic devices, and beyond, attributed to its unique structure and outstanding properties, − particularly in lithium-ion battery applications, where it exhibits superior conductivity, high flexibility, and other desirable attributes. Hence, researchers amalgamated transition metal oxides and graphene to fabricate anode for batteries, capitalizing on the distinctive properties inherent in both materials.…”

Section: Discussion Of Ultrafast Synthesis and Regenerationmentioning

confidence: 99%

Perspectives on Ultrafast, Precise Synthesis and Regeneration of Advanced Battery Materials

Huang,

Leng,

Yin

et al. 2024

Energy Fuels

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Contemporary global energy policies emphasize energy security, conservation, and carbon reduction, highlighting the paramount importance of sustainable energy development. The nexus between new energy technologies and novel materials, particularly advanced battery materials, underscores the critical role of material innovation in advancing sustainable energy agendas. However, conventional material synthesis methodologies present formidable obstacles to the timely and efficient development of new materials, thereby impeding progress toward meeting evolving societal demands. In response, this review comprehensively examines ultrafast synthesis techniques in the context of precise synthesis and recycling of advanced battery materials. These cutting-edge methodologies hold immense promise for revolutionizing the efficiency and efficacy of material preparation processes. Furthermore, this review meticulously elucidates the multifaceted advantages inherent in employing ultrafast synthesis methodologies. Lastly, it anticipates and navigates the forthcoming opportunities and challenges entailed in the widespread adoption of ultrafast synthesis methodologies across diverse scientific domains, transcending the boundaries of energy research.

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Section: Discussion Of Ultrafast Synthesis and Regenerationmentioning

confidence: 99%

Perspectives on Ultrafast, Precise Synthesis and Regeneration of Advanced Battery Materials

Huang,

Leng,

Yin

et al. 2024

Energy Fuels

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“…Surface plasmons (SPs) are collective electron oscillations confined evanescently along the interface between a conductor and a dielectric [23,24]. It is often assumed that the material adsorbed on the silver surface, and the silver atoms exist under this relationship.…”

Section: Introductionmentioning

confidence: 99%

The mechanism research for the surface plasmon-catalysed reaction of the mercapto group substituted benzoic acid

Song¹

2017

JAMS

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Abstract. In this study, we experimentally investigated the substituent effect on benzoic acid where the mercapto group was located in different positions, namely as 2-mercaptobenzoic acid (2-MBA), 3-mercaptobenzoic acid (3-MBA) and 4-mercaptobenzoic acid (4-MBA). The substituent effect was found to have an influence on the surface plasmon-catalysed reaction on the surface of the Ag4 atoms in the reaction of MBA with silver sol. In addition to the direct evidence from the surface-enhanced Raman scattering (SERS), the chemical enhancement mechanism for the generation of the MBA-Ag complex is presented. In contrast with the normal Raman scattering (NRS) spectra, new signals appeared in the SERS spectra of 2-MBA, 3-MBA and 4-MBA under the theoretical and experimental conditions. On investigation of the SERS spectra, the characteristic peaks of the C≡C bond have been demonstrated. The structural, atomic and chemical bond properties of the three types of MBAs indicate that the S atom of the mercapto group in the MBA molecules is the position site that attaches to the silver substrate through the bond of S•••Ag, and under laser irradiation, "hot electrons" are generated between the surface of MBA and Ag4 atoms. With the effect of "hot electrons", the -COOH bond of the MBA molecules is broken, and then the two single carboxylate MBA molecules become dimerized thiophenol acetylene (TPA). To briefly consider the substituent effect, the SERS spectra of these three types of MBAs were specifically studied for the enhancement of the Raman signal intensity with a variational tendency evident. Therefore, the conclusion was reached that the substituent effect plays a vital role in the surface plasmon-catalysed reaction, where the changing of the surfaceenhanced Raman intensity was demonstrated.

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Internal Reflection of the Surface of a Plasmonic Substrate Covered by Active Nanoparticles

Bortchagovsky

Demydenko

2018

Nanooptics, Nanophotonics, Nanostructures, and Their Applications

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Using Metal-Multilayer-Dielectric Structure to Increase Sensitivity of Surface Plasmon Resonance Sensor

Cited by 18 publications

References 14 publications

Perspectives on Ultrafast, Precise Synthesis and Regeneration of Advanced Battery Materials

Perspectives on Ultrafast, Precise Synthesis and Regeneration of Advanced Battery Materials

The mechanism research for the surface plasmon-catalysed reaction of the mercapto group substituted benzoic acid

Internal Reflection of the Surface of a Plasmonic Substrate Covered by Active Nanoparticles

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