New applications and perspectives of fast field cycling NMR relaxometry
RM Steele, JP Korb, G Ferrante… - Magnetic Resonance in …, 2016 - Wiley Online Library
The field cycling NMR relaxometry method (also known as fast field cycling (FFC) when
instruments employing fast electrical switching of the magnetic field are used) allows …
instruments employing fast electrical switching of the magnetic field are used) allows …
[HTML][HTML] Nuclear magnetic resonance with fast field-cycling setup: A valid tool for soil quality investigation
Nuclear magnetic resonance (NMR) techniques are largely employed in several fields. As
an example, NMR spectroscopy is used to provide structural and conformational information …
an example, NMR spectroscopy is used to provide structural and conformational information …
Droplet infiltration dynamics and soil wettability related to soil organic matter of soil aggregate coatings and interiors
M Fér, M Leue, R Kodešová, HH Gerke… - Journal of Hydrology …, 2016 - sciendo.com
The organo-mineral coatings of soil aggregates, cracks, and biopores control sorption and
macropore-matrix exchange during preferential flow, in particular in the clay-illuvial Bt …
macropore-matrix exchange during preferential flow, in particular in the clay-illuvial Bt …
[HTML][HTML] Effect of changing chemical environment on physical properties of maize root mucilage
Aims High viscosity, low surface tension and hydrophobicity are specific properties of maize
root mucilage which contribute to modulate the spatial configuration of the liquid phase in …
root mucilage which contribute to modulate the spatial configuration of the liquid phase in …
Small-sized platinum nanoparticles in soil organic matter: Influence on water holding capacity, evaporation and structural rigidity
R Komendová, J Žídek, M Berka, M Jemelkova… - Science of The Total …, 2019 - Elsevier
Engineered and anthropogenic nanoparticles represent a new type of pollutants. Up until
now, many studies have reported its adverse effect on biota, but the potential influence on …
now, many studies have reported its adverse effect on biota, but the potential influence on …
Applications of fast field cycling NMR relaxometry
P Conte - Annual reports on NMR spectroscopy, 2021 - Elsevier
Fast field cycling (FFC) NMR relaxometry is emerging as a powerful tool to investigate
physical chemistry properties of many systems in a number of different scientific fields. As an …
physical chemistry properties of many systems in a number of different scientific fields. As an …
[HTML][HTML] Moisture, water holding, drying and wetting in forest soils
P Blazka, Z Fischer - Open Journal of Soil Science, 2014 - scirp.org
Relationship of soil and water is generally considered as important in soil science. To
specify it further we studied two different soils in 2012-2013, three additional soils once and …
specify it further we studied two different soils in 2012-2013, three additional soils once and …
[PDF][PDF] Environmental NMR: fast-field-cycling relaxometry
P Conte, G Alonzo - EMagRes, 2013 - core.ac.uk
NMR relaxometry refers to the ensemble of techniques applied to monitor how fast nuclear
spin magnetization switches from a nonequilibrium state to the equilibrium distribution. This …
spin magnetization switches from a nonequilibrium state to the equilibrium distribution. This …
[HTML][HTML] Borehole nuclear magnetic resonance as a promising 3D mapping tool in peatland studies
The potential and limitations of the Borehole Nuclear Magnetic Resonance (BNMR)
technique as an in situ measurement for peatland soil characterization was tested in 163 …
technique as an in situ measurement for peatland soil characterization was tested in 163 …
Occurrence and spatial pattern of water repellency in a beech forest subsoil
J Bachmann, J Krueger, MO Goebel… - Journal of Hydrology and …, 2016 - sciendo.com
Most recent studies on soil water repellency (WR) were limited to the humous topsoil or to
shallow subsoil layers slightly below the main root zone to approximately 0.5 m depth …
shallow subsoil layers slightly below the main root zone to approximately 0.5 m depth …