Ultrathin ionic liquid films on metal surfaces: adsorption, growth, stability and exchange phenomena

Lexow, Matthias; Maier, Florian; Steinrück, Hans‐Peter

doi:10.1080/23746149.2020.1761266

Cited by 37 publications

(112 citation statements)

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“…As experimental methods, until recently only angle-resolved X-ray photoelectron spectroscopy (ARXPS) and UV-photoelectron spectroscopy (UPS) were applied. 17 , 27 − 31 Only very recently, the first UHV-based atomic force microscopy (AFM) studies addressing IL growth have been published. 32 , 33 Notably, scanning tunneling microscopy (STM) is not suited to study IL growth behavior, due to too strong tip effects, which occur for layers on top of the first wetting layer.…”

Section: Introductionmentioning

confidence: 99%

Time- and Temperature-Dependent Growth Behavior of Ionic Liquids on Au(111) Studied by Atomic Force Microscopy in Ultrahigh Vacuum

et al. 2021

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We deposited defined amounts of [C 1 C 1 Im][Tf 2 N] on Au(111) at different temperatures and investigated the morphology and wetting behavior of the deposited films by atomic force microscopy. For multilayer coverages, we observe a drastically different growth behavior when comparing deposition at room temperature (RT) and deposition below 170 K followed by slow annealing to RT. Upon deposition at RT, we find the formation of 2–30 nm high and 50–500 nm wide metastable 3D droplets on top of a checkerboard-type wetting layer. These droplets spread out into stable 2D bilayers, on the time scale of hours and days. The same 2D bilayer structure is obtained after deposition below 170 K and slow annealing to RT. We present a statistical analysis on the time-dependent changes of the shape and volume of the 3D droplets and the 2D bilayers. We attribute the stabilization of the 2D bilayers on the wetting layer and on already formed bilayers to the high degree of order in these layers. Notably, the transformation process from the 3D droplets to 2D bilayer islands is accelerated by tip effects and also X-ray radiation.

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Section: Introductionmentioning

confidence: 99%

Time- and Temperature-Dependent Growth Behavior of Ionic Liquids on Au(111) Studied by Atomic Force Microscopy in Ultrahigh Vacuum

et al. 2021

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“…A very powerful method in this context is ultra-high vacuum (UHV)-based angle-resolved XPS, which however can be applied only for ultrathin IL films, due to the limited escape depth of the emitted photoelectrons on the order of a few nm. 41 Using this method, the composition of the wetting layer in direct contact with the surface and the growth of successive layers have been studied in great detail. 42 Very recently, also ultrathin layers of IL mixtures have been investigated using this approach.…”

Section: Introductionmentioning

confidence: 99%

Enrichment effects of ionic liquid mixtures at polarized electrode interfaces monitored by potential screening

Shin

Greco

Maier

et al. 2021

Phys. Chem. Chem. Phys.

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“…[ 61 ] Most recently, they drew the same conclusion on Ag(111) surface, showing that cation is adsorbed with cation lying flat on the metal surface at low IL coverages (<0.5 monolayer) regardless of the cationic chain length, while further increasing the IL coverage favors detachment of the long cationic chain from the Ag(111) surface, as shown in Figure a. [ 62,63 ] Behm et al. characterized 1‐Butyl‐1‐methylpyrrolidinium bis(trifluoromethylsulfonyl)imide [C 4 C 1 Pyrr][NTf 2 ] on Au(111) using STM and XPS and observed alternating cations and anions on Au surfaces and orientation of the C 4 chains pointing toward the vacuum.…”

Section: What Is the Scill Concept?mentioning

confidence: 96%

“…Reproduced under the terms of the Creative Commons Attribution License 4.0. [ 62 ] Copyright 2020, The Author(s), Published by Informa UK Limited, trading as Taylor & Francis Group. b) Schemes for Pt and Pd nanoparticles supported on Al 2 O 3 /NiAl(110) surfaces in presence of IL [C 4 C 1 im][NTf 2 ] and adsorbed CO molecules.…”

Section: What Is the Scill Concept?mentioning

confidence: 99%

“…with cation lying flat on the metal surface at low IL coverages (<0.5 monolayer) regardless of the cationic chain length, while further increasing the IL coverage favors detachment of the long cationic chain from the Ag(111) surface, as shown in Figure 3a. [62,63] Behm et al characterized 1-Butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide [C 4 C 1 Pyrr][NTf 2 ] on Au(111) using STM and XPS and observed alternating cations and anions on Au surfaces and orientation of the C 4 chains pointing toward the vacuum. [64] Vibrational spectroscopic techniques have also been intensively applied in understanding the interfacial structure of IL at solid surfaces, and many inspiring conclusions have been drawn.…”

Section: Interfacial Structures Of Ilsmentioning

confidence: 99%

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Emerging Applications of Solid Catalysts with Ionic Liquid Layer Concept in Electrocatalysis

Zhang

Etzold

2021

Adv Funct Materials

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The concept of solid catalysts with ionic liquid layer (SCILL) originates from the field of heterogeneous catalysis, where it offers a unique way to regulate both the catalytic activity and selectivity. In recent years, applying this concept in electrocatalysis represented a new, exciting, and growing research field. Herein, emerging applications of the SCILL concept in the context of electrocatalysis for key energy storage/conversion processes such as oxygen reduction, oxygen evolution, and CO2 reduction reactions are comprehensively reviewed. Alongside case studies highlighting the history, development and latest progress of the SCILL concept, mechanistic underpinnings on the roles of ILs in each application are critically discussed. At the same time, the key challenges and future opportunities in fully leveraging the SCILL concept for either regulating the performance of electrocatalysts or gaining mechanistic understandings for those electrocatalytic processes with complex reaction pathways are outlined.

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Ultrathin ionic liquid films on metal surfaces: adsorption, growth, stability and exchange phenomena

Cited by 37 publications

References 235 publications

Time- and Temperature-Dependent Growth Behavior of Ionic Liquids on Au(111) Studied by Atomic Force Microscopy in Ultrahigh Vacuum

Time- and Temperature-Dependent Growth Behavior of Ionic Liquids on Au(111) Studied by Atomic Force Microscopy in Ultrahigh Vacuum

Enrichment effects of ionic liquid mixtures at polarized electrode interfaces monitored by potential screening

Emerging Applications of Solid Catalysts with Ionic Liquid Layer Concept in Electrocatalysis

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