Using Ambient Ion Beams to Write Nanostructured Patterns for Surface Enhanced Raman Spectroscopy

Li, Anyin; Baird, Zane; Bag, Soumabha; Sarkar, Depanjan; Prabhath, Anupama; Pradeep, Thalappil; Cooks, R. Graham

doi:10.1002/anie.201406660

Cited by 56 publications

(47 citation statements)

References 42 publications

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“…Furthermore, when soft landed onto reactive surfaces, Raman spectroscopy revealed increased product yields compared to those obtained from solution phase mixing of the reactants (Badu‐Tawiah et al, ). More recently, the same group has demonstrated the use of ambient ion beams to prepare Ag substrates for SERS applications (Li et al, ) and Au nanoparticles for use in heterogeneous catalysis (Li et al, ). These results indicate that ambient ion soft landing is a straightforward and powerful technique which may be utilized in the future to prepare surfaces patterned with ions of a specific polarity.…”

Section: Overview Of Instrumentation For Soft Landing Of Ionsmentioning

confidence: 99%

“…Some of the earliest work in this area involved soft landing of ionic metal species into inert gas matrices (e.g., Ar, Kr, Ne) for subsequent analysis with techniques such as optical absorption, fluorescence, and Raman spectroscopy (Harbich et al, ; Honea et al, ; Felix et al, ). In addition to delivering ionic clusters and nanoparticles to surfaces for spectroscopic analysis, soft landing has been employed to prepare substrates to enable SERS analysis of other adsorbed molecules such as dyes (Panagopoulou et al, ; Hoffmann & Verbeck , ; Li et al, ). In another work, Benson and co‐workers immobilized a single fluorescent particle on the surface of an optical fiber using ion soft landing in a linear Paul trap (Gregor et al, ).…”

Section: Preparative Mass Spectrometrymentioning

confidence: 99%

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Soft‐ and reactive landing of ions onto surfaces: Concepts and applications

Johnson

Gunaratne

Laskin

2015

Mass Spectrometry Reviews

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Soft‐ and reactive landing of mass‐selected ions is gaining attention as a promising approach for the precisely‐controlled preparation of materials on surfaces that are not amenable to deposition using conventional methods. A broad range of ionization sources and mass filters are available that make ion soft‐landing a versatile tool for surface modification using beams of hyperthermal (<100 eV) ions. The ability to select the mass‐to‐charge ratio of the ion, its kinetic energy and charge state, along with precise control of the size, shape, and position of the ion beam on the deposition target distinguishes ion soft landing from other surface modification techniques. Soft‐ and reactive landing have been used to prepare interfaces for practical applications as well as precisely‐defined model surfaces for fundamental investigations in chemistry, physics, and materials science. For instance, soft‐ and reactive landing have been applied to study the surface chemistry of ions isolated in the gas‐phase, prepare arrays of proteins for high‐throughput biological screening, produce novel carbon‐based and polymer materials, enrich the secondary structure of peptides and the chirality of organic molecules, immobilize electrochemically‐active proteins and organometallics on electrodes, create thin films of complex molecules, and immobilize catalytically active organometallics as well as ligated metal clusters. In addition, soft landing has enabled investigation of the size‐dependent behavior of bare metal clusters in the critical subnanometer size regime where chemical and physical properties do not scale predictably with size. The morphology, aggregation, and immobilization of larger bare metal nanoparticles, which are directly relevant to the design of catalysts as well as improved memory and electronic devices, have also been studied using ion soft landing. This review article begins in section 1 with a brief introduction to the existing applications of ion soft‐ and reactive landing. Section 2 provides an overview of the ionization sources and mass filters that have been used to date for soft landing of mass‐selected ions. A discussion of the competing processes that occur during ion deposition as well as the types of ions and surfaces that have been investigated follows in section 3. Section 4 discusses the physical phenomena that occur during and after ion soft landing, including retention and reduction of ionic charge along with factors that impact the efficiency of ion deposition. The influence of soft landing on the secondary structure and biological activity of complex ions is addressed in section 5. Lastly, an overview of the structure and mobility as well as the catalytic, optical, magnetic, and redox properties of bare ionic clusters and nanoparticles deposited onto surfaces is presented in section 6. © 2015 Wiley Periodicals, Inc. Mass Spec Rev 35:439–479, 2016.

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Section: Overview Of Instrumentation For Soft Landing Of Ionsmentioning

confidence: 99%

Section: Preparative Mass Spectrometrymentioning

confidence: 99%

Soft‐ and reactive landing of ions onto surfaces: Concepts and applications

Johnson

Gunaratne

Laskin

2015

Mass Spectrometry Reviews

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“…Electrospray ionization is another technique for introducing clusters into the gas phase and concomitantly ionizing these species 63 . A solution of the cluster precursor passes through a small biased capillary and is electrosprayed into a carrier gas forming a molecular beam of ions through supersonic expansion 64 .…”

Section: Preparation and Characterization Of Small Clustersmentioning

confidence: 99%

Catalysis by clusters with precise numbers of atoms

2015

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Clusters that contain only a small number of atoms can exhibit unique and often unexpected properties. The clusters are of particular interest in catalysis because they can act as individual active sites, and minor changes in size and composition--such as the addition or removal of a single atom--can have a substantial influence on the activity and selectivity of a reaction. Here, we review recent progress in the synthesis and characterization of well-defined subnanometre clusters, and the understanding and exploitation of their catalytic properties. We examine work on size-selected supported clusters in ultrahigh-vacuum environments and under realistic reaction conditions, and explore the use of computational methods to provide a mechanistic understanding of their catalytic properties. We also highlight the potential of size-selected clusters to provide insights into important catalytic processes and their use in the development of novel catalytic systems.

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“…[16][17][18][19][20][21][22] The ESI/ ESSI as the main setup to generate charged microdroplets is usually accompanied by special redox reactions, which have been used for some synthesis reaction and nanomaterials. 23,24 Microdroplets as microreactors combined with on-line MS have been used to capture and identify transient intermediates of organic reactions, and microdroplet chemistry has been broadly applied in the eld of bioanalytical detection. [25][26][27] Microdroplets show a strikingly different environment for reactions than that of the corresponding bulk phase.…”

Section: Introductionmentioning

confidence: 99%

Reaction of chloroauric acid with histidine in microdroplets yields a catalytic Au–(His)₂complex

Luo

Cao

et al. 2020

Chem. Sci.

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Using Ambient Ion Beams to Write Nanostructured Patterns for Surface Enhanced Raman Spectroscopy

Cited by 56 publications

References 42 publications

Soft‐ and reactive landing of ions onto surfaces: Concepts and applications

Soft‐ and reactive landing of ions onto surfaces: Concepts and applications

Catalysis by clusters with precise numbers of atoms

Reaction of chloroauric acid with histidine in microdroplets yields a catalytic Au–(His)₂complex

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Using Ambient Ion Beams to Write Nanostructured Patterns for Surface Enhanced Raman Spectroscopy

Cited by 56 publications

References 42 publications

Soft‐ and reactive landing of ions onto surfaces: Concepts and applications

Soft‐ and reactive landing of ions onto surfaces: Concepts and applications

Catalysis by clusters with precise numbers of atoms

Reaction of chloroauric acid with histidine in microdroplets yields a catalytic Au–(His)2complex

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Reaction of chloroauric acid with histidine in microdroplets yields a catalytic Au–(His)₂complex