Publications by authors named "Matthias Waegele"

The rates of many electrocatalytic reactions can be strongly affected by the structure and dynamics of the electrochemical double layer, which in turn can be tuned by the concentration and identity of the supporting electrolyte's cation. The effect of cations on an electrocatalytic process depends on a complex interplay between electrolyte components, electrode material and surface structure, applied electrode potential, and reaction intermediates. Although cation effects remain insufficiently understood, the principal mechanisms underlying cation-dependent reactivity and selectivity are beginning to emerge.

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  • - Molecular Ir catalysts are key for studying water oxidation, crucial for making renewable fuels, and previous research focused primarily on how active species emerge from their precursors.
  • - This study investigates the catalytic cycle of a specific Ir catalyst known as the "blue dimer" using advanced techniques like SEIRAS and PSD to analyze its behavior at an electrode/electrolyte interface.
  • - Findings reveal that two important intermediates, oxo (Ir═O) and superoxo (Ir-OO), can be identified and their relative abundance can be manipulated based on the reaction's thermodynamic conditions.
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  • Solar water oxidation is essential for artificial photosynthesis and involves a process that requires four holes and releases four protons.
  • Research indicates that the density of catalysts used affects the reaction rates, particularly in how they interact with surface hole concentrations on photoelectrodes.
  • The study finds that low-density catalysts enhance charge transfer at low photon flux, but can slow down charge recombination at high photon flux, suggesting that optimizing catalyst density is crucial for improving the performance of solar water splitting devices.
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  • * This research compares dinuclear iridium catalysts (Ir-DHC) on two different supports, indium tin oxide (ITO) and cerium oxide (CeO), to isolate the effects of the support on catalytic activity during water oxidation.
  • * Results showed that at higher temperatures (310-323 K), Ir-DHC on ITO performed significantly better than on CeO due to varying abilities of the supports to redistribute holes, emphasizing the support's role in catalytic efficiency.
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  • Atomically dispersed catalysts, particularly single-atom catalysts, are promising for oxidizing methane to produce valuable compounds like acetic acid and methanol, but they usually have low active site loading, resulting in low product yield.
  • The study introduces a method using metal-organic frameworks with porphyrin linkers to enhance rhodium concentrations, achieving a high loading of 5 wt% with excellent dispersity.
  • When tested for acetic acid production, this new catalyst reached a performance benchmark of 23.62 mmol·g·h and demonstrated sensitivity to light, allowing for different selectivity between acetic acid and methanol based on illumination conditions.
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Electrocatalysis is central to the production of renewable fuels and high-value commodity chemicals. The electrolyte and the electrode together determine the catalytic properties of the liquid/solid interface. In particular, the cations of the electrolyte can greatly change the rates and reaction selectivity of many electrocatalytic processes.

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The product selectivity of many heterogeneous electrocatalytic processes is profoundly affected by the liquid side of the electrocatalytic interface. The electrocatalytic reduction of CO to hydrocarbons on Cu electrodes is a prototypical example of such a process. However, probing the interactions of surface-bound intermediates with their liquid reaction environment poses a formidable experimental challenge.

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The inertness of the C-H bond in CH poses significant challenges to selective CH oxidation, which often proceeds all the way to CO once activated. Selective oxidation of CH to high-value industrial chemicals such as CO or CHOH remains a challenge. Presently, the main methods to activate CH oxidation include thermochemical, electrochemical, and photocatalytic reactions.

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The catalytic selectivity and reactivity of an electrocatalytic interface can profoundly depend on the identity of the supporting electrolyte's cation. In the case of CO reduction on copper electrodes, these cation effects have been utilized to suppress undesired hydrogen evolution and to promote the formation of C reduction products. However, to more effectively steer the catalytic selectivity of the electrolyte/copper interface by cations, it is crucial to reveal the various physical mechanisms by which cations impact the catalytic properties of this prototypical interface for CO reduction.

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Although the water oxidation cycle involves the critical step of O-O bond formation, the transition metal oxide radical thought to be the catalytic intermediate for this step has eluded direct observation. The radical represents the transformation of charge into a nascent catalytic intermediate, which lacks a newly formed bond and is therefore inherently difficult to detect. Here, using theoretical calculations and ultrafast in situ infrared spectroscopy of photocatalysis at an n-SrTiO3/aqueous interface, we reveal a subsurface vibration of the oxygen directly below, and uniquely generated by, the oxyl radical (Ti-O(•)).

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Interfacial hole transfer between n-SrTiO3 and OH(-) was investigated by surface sensitive transient optical spectroscopy of an in situ photoelectrochemical cell during water oxidation. The kinetics reveal a single rate constant with an exponential dependence on the surface hole potential, spanning time scales from 3 ns to 8 ps over a ≈1 V increase. A voltage- and laser illumination-induced process moves the valence band edge at the n-type semiconductor/water interface to continuously change the surface hole potential.

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Although protein folding is a simple outcome of the underlying thermodynamics, arriving at a quantitative and predictive understanding of how proteins fold nevertheless poses huge challenges. Therefore, both advanced experimental and computational methods are continuously being developed and refined to probe and reveal the atomistic details of protein folding dynamics and mechanisms. Herein, we provide a concise review of recent developments in spectroscopic studies of protein folding, with a focus on new triggering and probing methods.

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Elucidating the underlying molecular mechanisms of protein folding and function is a very exciting and active research area, but poses significant challenges. This is due in part to the fact that existing experimental techniques are incapable of capturing snapshots along the 'reaction coordinate' in question with both sufficient spatial and temporal resolutions. In this regard, recent years have seen increased interests and efforts in development and employment of site-specific probes to enhance the structural sensitivity of spectroscopic techniques in conformational and dynamical studies of biological molecules.

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The dependence of the melting temperature increase (ΔT(m)) of the protein ubiquitin on the volume fraction (ϕ) of several commonly used macromolecular crowding agents (dextran 6, 40, and 70 and ficoll 70) was quantitatively examined and compared to a recently developed theoretical crowding model, i.e., ΔT(m) ∼ (R(g)∕R(c))(α)φ(α∕3).

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The helical hairpin motif plays a key role as a receptor site in DNA binding and protein-protein interactions. Thus, various helical hairpins have recently been developed to assess the factors that control the DNA and/or protein binding affinities of this structural motif and to form synthetic templates for protein and drug design. In addition, several lines of evidence suggest that rapid acquisition of a helical hairpin structure from the unfolded ensemble may guide the rapid formation of helical proteins.

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The bandwidth of the nitrile (C≡N) stretching vibration of 5-cyanotryptophan shows a significant broadening upon hydration. Thus, it has been proposed to be a useful infrared probe of the local hydration environment of proteins. However, the molecular mechanism underlying this hydration-induced spectral broadening is not known, making interpretation of the experimental results difficult.

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Synthetic foldamers consisting of beta-amino acids offer excellent model systems for examining the effect of backbone flexibility on the dynamics of protein folding. Herein, we study the folding-unfolding kinetics of a beta-peptide that folds into a 14-helical structure in water. We find that the T-jump induced relaxation kinetics of this peptide occur on the nanosecond time scale and are noticeably slower than those of alanine-based alpha-helical peptides, and additionally, the relaxation rates show a weaker dependence on temperature.

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The nitrile (C≡N) stretching vibration is sensitive to environment, making nitrile-derivatized amino acids an increasingly utilized tool to study various biological processes. Herein, we show that the bandwidth of the C≡N stretching vibration of 5-cyanotryptophan is particularly sensitive to water, rendering it an attractive infrared probe of local hydration status. We confirm the utility of this probe in biological applications by using it to examine how the hydration status of individual tryptophan sidechains of an antimicrobial peptide, indolicidin, changes upon peptide binding to model membranes.

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Macromolecular crowding is one of the key characteristics of the cellular environment and is therefore intimately coupled to the process of protein folding in vivo. While previous studies have provided invaluable insight into the effect of crowding on the stability and folding rate of protein tertiary structures, very little is known about how crowding affects protein folding dynamics at the secondary structure level. In this study, we examined the thermal stability and folding-unfolding kinetics of three small folding motifs (i.

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Optical nonlinear properties of cusps formed at the junction between two circular apertures in a metal film have been studied by scanning confocal microscopy. For gold, both second harmonic and broadband emission are enhanced when the pump polarization is directed across the gap between cusps, similar to the behavior of the recently studied bowtie antennas and apertures. However, field enhancements are also present when the polarization is perpendicular to the gap direction.

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AppA is a blue-light and redox-responding regulator of photosynthesis gene expression in Rhodobacter sphaeroides. Detailed time-resolved fluorescence spectroscopy and subpicosecond transient absorption spectroscopy study of the BLUF domain is presented for wild-type AppA (AppAwt) and a photoinactive Y21F mutant of AppA. The main findings discussed here are that (1) time-resolved laser excitation studies on dark-adapted protein show that AppAwt and Y21F mutant protein exhibits a fluorescence decay with a lifetime of 0.

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