Janne Soetbeer scite author profile

We have characterized the temperature dependent transverse relaxation for 100 μM protonated and deuterated nitroxides in both protonated and deuterated o-terphenyl (OTP and dOTP) in distinct temperature regimes between 10 K and room temperature (RT). The choice of sample compositions allowed for a clear separation into slow and fast relaxation contributions based on a sum of two stretched exponential (SSE) parameterization between 10 and 60 K, and likewise at RT. The slow contribution is purely matrix dependent, while the fast process is determined by an interplay between a molecule and a matrix. Our systematic study of dynamical decoupling (DD) as a function of temperature (at 40, 80 K and RT), spin concentration, deuteration of nitroxide and/or OTP matrix and DD scheme for 1 to 5 refocusing pulses reveals that DD significantly prolongs phase memory times with respect to Hahn echo relaxation at 40 K, which we discuss in an SSE framework. At 80 K and RT, where (intra)molecular motions dominate relaxation, DD does not preserve electron spin coherence independent of the sample composition. Instead, we report a matrix nuclei dependent performance of the applied DD scheme at 40 K with Uhrig outperforming Carr-Purcell DD in OTP, and vice versa for a dOTP matrix.

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Marcus-type driving force correlations reveal the mechanism of proton-coupled electron transfer for phenols and [Ru(bpy)₃]³⁺ in water at low pH

Soetbeer

Dongare

Hammarström

2016

Chem. Sci.

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Conformation of bis-nitroxide polarizing agents by multi-frequency EPR spectroscopy

Soetbeer

Gast

Walish

et al. 2018

Phys. Chem. Chem. Phys.

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Dynamical decoupling in water–glycerol glasses: a comparison of nitroxides, trityl radicals and gadolinium complexes

Soetbeer

Millen

Zouboulis

et al. 2021

Phys. Chem. Chem. Phys.

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Artefact suppression in 5-pulse double electron electron resonance for distance distribution measurements

Breitgoff

Soetbeer

Doll

et al. 2017

Phys. Chem. Chem. Phys.

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A 5-pulse version of the Double Electron Electron Resonance (DEER) experiment with Carr-Purcell delays and an additional pump pulse has been shown to significantly extend the experimentally accessible distance range in cases where nuclear spin diffusion dominates electron spin phase memory loss [Borbat et al., J. Phys. Chem. Lett., 2013, 4, 170]. We show that the sequence also prolongs coherence decay for spin labels in or near lipid bilayers, where this decay is mono-exponential. Compared to 4-pulse DEER, 5-pulse DEER suffers from additional artefacts that stem from pulse imperfection and excitation band overlap. Only some of these artefacts can be suppressed by phase cycling and the remaining ones have hindered widespread utilization of the method. Here, we report previously unknown additional artefact contributions stemming from overlap between the excitation bands of the microwave pulses that introduce additional dipolar evolution pathways. Experimental conditions are analyzed in detail that suppress these as well as the already known artefacts. Such suppression results in data that contain at most the partial excitation artefact, which can be deliberately shifted in time by a change in pulse timing without affecting the wanted contribution.

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Regularized dynamical decoupling noise spectroscopy – a decoherence descriptor for radicals in glassy matrices

Soetbeer

Berkson

Polyhach

2021

Phys. Chem. Chem. Phys.

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Quantifying methyl tunneling induced (de)coherence of nitroxides in glassy ortho-terphenyl at low temperatures

Eggeling

Soetbeer

Ibáñez

et al. 2023

Phys. Chem. Chem. Phys.

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Janne Soetbeer

Capture and characterization of a reactive haem–carbenoid complex in an artificial metalloenzyme

Dynamical decoupling of nitroxides in o-terphenyl: a study of temperature, deuteration and concentration effects

Marcus-type driving force correlations reveal the mechanism of proton-coupled electron transfer for phenols and [Ru(bpy)₃]³⁺ in water at low pH

Conformation of bis-nitroxide polarizing agents by multi-frequency EPR spectroscopy

Dynamical decoupling in water–glycerol glasses: a comparison of nitroxides, trityl radicals and gadolinium complexes

Artefact suppression in 5-pulse double electron electron resonance for distance distribution measurements

Regularized dynamical decoupling noise spectroscopy – a decoherence descriptor for radicals in glassy matrices

Quantifying methyl tunneling induced (de)coherence of nitroxides in glassy ortho-terphenyl at low temperatures

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Janne Soetbeer

Capture and characterization of a reactive haem–carbenoid complex in an artificial metalloenzyme

Dynamical decoupling of nitroxides in o-terphenyl: a study of temperature, deuteration and concentration effects

Marcus-type driving force correlations reveal the mechanism of proton-coupled electron transfer for phenols and [Ru(bpy)3]3+ in water at low pH

Conformation of bis-nitroxide polarizing agents by multi-frequency EPR spectroscopy

Dynamical decoupling in water–glycerol glasses: a comparison of nitroxides, trityl radicals and gadolinium complexes

Artefact suppression in 5-pulse double electron electron resonance for distance distribution measurements

Regularized dynamical decoupling noise spectroscopy – a decoherence descriptor for radicals in glassy matrices

Quantifying methyl tunneling induced (de)coherence of nitroxides in glassy ortho-terphenyl at low temperatures

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Product

Resources

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Marcus-type driving force correlations reveal the mechanism of proton-coupled electron transfer for phenols and [Ru(bpy)₃]³⁺ in water at low pH