Hierarchically Structured Plasmonic Nanoparticle Assemblies with Dual-Length Scale Electromagnetic Hot Spots for Enhanced Sensitivity in the Detection of (Bio)Molecular Analytes

Rastogi, Rishabh; Foli, Ekoue A. Dogbe; Vincent, Rémi; Poovathingal, Suresh; Adam, Pierre‐Michel; Krishnamoorthy, Sivashankar

doi:10.1021/acs.jpcc.0c10467

Cited by 5 publications

(2 citation statements)

References 39 publications

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“…These gradients are highly promising to optimize nanostructure variables for a broad range of applications that rely on optical and electronic properties of gold nanoparticles. The application of gold nanoparticle assemblies were already demonstrated in our earlier reports and reports published by other research teams, towards plasmon-enhanced spectroscopic sensors [34,[46][47][48][49][50][51], photocatalysis [52,53], charge storage devices [54,55], and bio-interfaces [56,57]. In addition, nanoparticle gradients can be applied to control the surface roughness, through the choice of geometry (e.g.…”

Section: Nanoparticle Gradientsa Generic Tool To Diverse Applicationsmentioning

confidence: 89%

Rational route to fabrication of uni-dimensional surface gradients presenting stochastic and periodic arrangement of nanoparticles

Malekzad

Beggiato

Hegemann

et al. 2022

Applied Surface Science

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Nanostructure gradients exhibiting graded variation in a nanostructure geometric variable carry high promise as tool for parallel and high-throughput optimization of a range of on-chip devices and functional interfaces. The capabilities to fabricate nanostructure gradients, with desired size and slope, while preserving scalability and operational flexibility is however limited. In this direction, we demonstrate a simple and flexible approach to prepare nanostructure gradients, subjecting a functionalized chip for the adsorption of nanoparticles or ions from aqueous media, with varying durations of exposure along the length of the chip. The configuration is similar to dip-coating, however, with the solution front moving relative to a stationary substrate. The flow rate, dimension of the chamber, and the functional layers are shown as simple handles to achieve the desired gradient morphology. Gradients with stochastic as well as periodic organization of nanoparticle assemblies are demonstrated through the choice of different functional layers underneath the nanoparticle layer, viz. aminosilane monolayers, cross-linked plasma polymer and copolymer templates. The approach paves way to rationally designed gradients, benefitting from the significant flexibility in the choice of operational conditions, without specific constraints on the size of the substrates that can be used.

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Section: Nanoparticle Gradientsa Generic Tool To Diverse Applicationsmentioning

confidence: 89%

Rational route to fabrication of uni-dimensional surface gradients presenting stochastic and periodic arrangement of nanoparticles

Malekzad

Beggiato

Hegemann

et al. 2022

Applied Surface Science

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“…While the investigation of the multicomponent configurations here comprised of gold and polymer, the active core of the BCP reverse micelles offers rich flexibility in the choice of materials that can be patterned viz., Pt, ZnO, TiO 2 , Al 2 O 3 either by solution processable or vapour-phase deposition techniques, proteins and drugs [4,[24][25][26][27]. An extrapolation of the self-assembly design mechanism derived from the investigation of the hierarchical assemblies would result in more complex multifunctional systems with tailored geometric attributes with high implications for sensing and detection of chemicals, analytes and pesticides in farms based on SERS mechanism [28][29][30][31].…”

Section: Introductionmentioning

confidence: 99%

Block copolymer self-assembly assisted fabrication of laterally organized- and stacked- nanoarrays

Suresh¹,

Chew²,

Tan³

et al. 2022

Nanotechnology

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Block copolymer (BCP) self-assembly processes are often seen as reliable techniques for advanced nanopatterning to achieve functional surfaces and create templates for nanofabrication. By taking advantage of the tunability in pitch, diameter and feature-to-feature separation of the self-assembled BCP features, complex, laterally organized- and stacked- multicomponent nanoarrays comprising of gold and polymer have been fabricated. The approaches not only demonstrate nanopatterning of up to two levels of hierarchy but also investigate how a variation in the feature-to-feature gap at the first hierarchy affects the self-assembly of polymer features at the second. Such BCP self-assembly enabled multicomponent nanoarray configurations are rarely achieved by other nanofabrication approaches and are particularly promising for pushing the boundaries of block copolymer lithography and in creating unique surface architectures and complex morphologies at the nanoscale.

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Self‐Assembled Hierarchical Nanostructures: Toward Engineered SERS‐Active Platforms

Cutolo,

Galeotti,

Spaziani

et al. 2024

Laser & Photonics Reviews

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The creation of SERS‐active substrates is investigated by self‐assembling hierarchical structures of plasmonic‐assisted nanospheres (HSNs). The hierarchical architecture exploits the advantages of the well‐known ordered configuration of a hexagonally closed‐packed array (CPA) of nanospheres. A further layer of upper nanospheres is used to provide regular and intense surface hotspots, located at the nanogaps between neighboring nanospheres. Numerical analysis is carried out to predict the SERS performances and to identify the more promising configurations, by offering design criteria and a physical insight on the conditions affecting the SERS response of the self‐assembled substrates. Two alternative self‐assembly fabrication methods have been pursued to realize HSNs, namely co‐deposition and sequential deposition. Morphological analysis revealed the formation of well‐ordered hierarchical structures with different ratios between the diameters of the bottom and upper nanospheres. Experimental analysis of the SERS response demonstrates that HSNs can work as cost‐effective SERS substrates with superior performances with respect to the simpler single‐layer CPA configurations.

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Hierarchically Structured Plasmonic Nanoparticle Assemblies with Dual-Length Scale Electromagnetic Hot Spots for Enhanced Sensitivity in the Detection of (Bio)Molecular Analytes

Cited by 5 publications

References 39 publications

Rational route to fabrication of uni-dimensional surface gradients presenting stochastic and periodic arrangement of nanoparticles

Rational route to fabrication of uni-dimensional surface gradients presenting stochastic and periodic arrangement of nanoparticles

Block copolymer self-assembly assisted fabrication of laterally organized- and stacked- nanoarrays

Self‐Assembled Hierarchical Nanostructures: Toward Engineered SERS‐Active Platforms

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