EPR Spectroscopy as a Tool to Characterize the Maturity Degree of Humic Acids

Dębska, B.; Spychaj-Fabisiak, E.; Szulc, Wiesław; Gaj, R.; Banach-Szott, Magdalena

doi:10.3390/ma14123410

Cited by 7 publications

(5 citation statements)

References 19 publications

(26 reference statements)

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“…This is in contrast to most neutral π radicals, which are insulators or poorly conducting semiconductors with σ < 10 –10 S cm –1 . Furthermore, using the doubly integrated ESR spectra of the EBR calibrated against the standard DPPH S = 1/2 radical, we obtain the spin density in the EBR film and, consequently, a mean distance between the radical spin centers of ∼0.4 nm, for which a strong exchange interaction is expected. , This is consistent with the ESR spectrum having a single Lorentzian shape, a feature characteristic of high spin density radical systems with strong exchange between neighboring molecules. , Therefore, a contribution to spin transport within the radical film from both mechanisms cannot be ruled out.…”

supporting

confidence: 82%

“…30,31 This is consistent with the ESR spectrum having a single Lorentzian shape, a feature characteristic of high spin density radical systems with strong exchange between neighboring mole- cules. 52,53 Therefore, a contribution to spin transport within the radical film from both mechanisms cannot be ruled out. A contribution to the observed increase of ΔH pp can also arise from factors unrelated to spin pumping, for example, due to a permanent alteration of the nature of the radical molecule itself when deposited on a metallic surface, resulting in the increase of ΔH pp .…”

Section: T H Imentioning

confidence: 99%

“…cules. 52,53 Therefore, a contribution to spin transport within the radical film from both mechanisms cannot be ruled out. A contribution to the observed increase of ΔH pp can also arise from factors unrelated to spin pumping, for example, due to a permanent alteration of the nature of the radical molecule itself when deposited on a metallic surface, resulting in the increase of ΔH pp .…”

Section: T H Imentioning

confidence: 99%

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Metal-Free Organic Radical Spin Source

Nicolaides,

Bazzi,

Vouros

et al. 2023

Nano Lett.

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Organic radicals have long been suggested as candidates for organic magnets and components in organic spintronic devices. Herein, we demonstrate spin current emission from an organic radical film via spin pumping at room temperature. We present the synthesis and the thin film preparation of a Blatter-type radical with outstanding stability and low roughness. These features enable the fabrication of a radical/ferromagnet bilayer, in which the spin current emission from the organic radical layer can be reversibly reduced when the ferromagnetic film is brought into simultaneous resonance with the radical. The results provide an experimental demonstration of a metal-free organic radical layer operating as a spin source, opening a new avenue for the development of purely organic spintronic devices and bridging the gap between potential and real applications.

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supporting

confidence: 82%

Section: T H Imentioning

confidence: 99%

Section: T H Imentioning

confidence: 99%

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Metal-Free Organic Radical Spin Source

Nicolaides,

Bazzi,

Vouros

et al. 2023

Nano Lett.

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“…This circumstance accounts for both the unusual stability of the paramagnetism of HSs (unpaired electrons do not recombine in the liquid phase) and the sensitivity of EPR spectra to the chemical structure and size of highly dispersed particles. There is also a fairly widespread belief (in half of the papers where authors discussed the nature of SOM paramagnetism) that the paramagnetism of HSs is mainly due to semiquinone radicals and is justified by the absence of significant differences in the shape of the EPR spectra of the original samples and those treated with alkaline solutions, as well as the positive correlation between the signal intensity and the content of quinoid groups [101,102]. The formation of FRs during enzymatic oxidation of HSs containing phenolic fragments has been noted by many researchers.…”

Section: The Nature Of Som Paramagnetismmentioning

confidence: 99%

The Use of Spectroscopic Methods to Study Organic Matter in Virgin and Arable Soils: A Scoping Review

Lodygin,

Abakumov

2024

Agronomy

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The use of modern spectroscopic methods of analysis, which provide extensive information on the chemical nature of substances, significantly expands our understanding of the molecular composition and properties of soil organic matter (SOM) and its transformation and stabilization processes in various ecosystems and geochemical conditions. The aim of this review is to identify and analyze studies related to the application of nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) spectroscopy techniques to study the molecular composition and transformation of organic matter in virgin and arable soils. This article is mainly based on three research questions: (1) Which NMR spectroscopy techniques are used to study SOM, and what are their disadvantages and advantages? (2) How is the NMR spectroscopy technique used to study the molecular structure of different pools of SOM? (3) How is ESR spectroscopy used in SOM chemistry, and what are its advantages and limitations? Relevant studies published between 1996 and 2024 were searched in four databases: eLIBRARY, MDPI, ScienceDirect and Springer. We excluded non-English-language articles, review articles, non-peer-reviewed articles and other non-article publications, as well as publications that were not available according to the search protocols. Exclusion criteria for articles were studies that used NMR and EPR techniques to study non-SOM and where these techniques were not the primary methods. Our scoping review found that both solid-state and solution-state NMR spectroscopy are commonly used to study the structure of soil organic matter (SOM). Solution-phase NMR is particularly useful for studying soluble SOM components of a low molecular weight, whereas solid-phase NMR offers advantages such as higher 13C atom concentration for stronger signals and faster analysis time. However, solution-phase NMR has limitations including sample insolubility, potential signal aggregation and reduced sensitivity and resolution. Solid-state NMR is better at detecting non-protonated carbon atoms and identifying heterogeneous regions within structures. EPR spectroscopy, on the other hand, offers significant advantages in experimental biochemistry due to its high sensitivity and ability to provide detailed information about substances containing free radicals (FRs), aiding in the assessment of their reactivity and transformations. Understanding the FR structure in biopolymers can help to study the formation and transformation of SOM. The integration of two- and three-dimensional NMR spectroscopy with other analytical methods, such as chromatography, mass spectrometry, etc., provides a more comprehensive approach to deciphering the complex composition of SOM than one-dimensional techniques alone.

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“…More humified organic matter is characterized by an increase in the aromaticity of the molecules, an increase in carbon and decrease in hydrogen content, as well as an increase in the content of carboxyl and methoxy groups compared to less humified matter [18]. Advanced instrumental techniques such as FTIR, 13 C CP MAS NMR/ 1 H NMR, or EPR spectroscopy can help in describing the detailed chemical properties of humic substances as well as following the direction of humification [19][20][21]. Decreasing in SOM, particularly HAs (a very stable humus fraction), contributes to an increase in compactness of the soil, diminishing soil aeration, and the appearance of reductive chemical conditions [22], as well as reducing the stability of soil aggregates.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of Humic Acids in Drained Floodplain Soils in Temperate Climates: A Spectroscopic Study

et al. 2023

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This study aims to assess the characteristics of humic acids (HAs) in floodplain soils. HAs were isolated from the Fluvisols located out of the embankment in the riparian forest (unflooded riparian forest) and within the embankment (inter-embankment), in the area periodically flooded. HAs from these soils were examined for quantity, structure, and humification degree using extraction methods as well as elemental analysis, UV-Vis, FTIR, EPR, and 1HNMR spectroscopies. In the soils after drainage, a significant decrease in HAs has been observed compared to the periodically flooded areas. Obtained results showed that organic matter from periodically flooded soils is more humified and contains HAs with a more aromatic, lignin-like structure compared to the humus matter from unflooded Fluvisols. Humic acids from periodically flooded soil contained a lower amount of C and H compared to those isolated from unflooded soils located out of the embankment, which resulted in a less aliphatic or more aromatic character of their molecules. A higher H/C ratio of HAs from the Fluvisols after drainage exhibits more condensed aromatic ring or substituted ring structures in the molecules. Soils with organic matter with a higher humification index contained HAs with lower radical concentration values in comparison to soils with less humified organic matter. Results obtained show that in flooded areas with periodically reductive conditions, humic acids do not lose as many -OCH3 groups as in better oxidized soils and therefore exhibit a lignin-like aromatic structure. It has been proven that the formation and dynamics of HA transformation may vary due to the water regime in soils.

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EPR Spectroscopy as a Tool to Characterize the Maturity Degree of Humic Acids

Cited by 7 publications

References 19 publications

Metal-Free Organic Radical Spin Source

Metal-Free Organic Radical Spin Source

The Use of Spectroscopic Methods to Study Organic Matter in Virgin and Arable Soils: A Scoping Review

Characteristics of Humic Acids in Drained Floodplain Soils in Temperate Climates: A Spectroscopic Study

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