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Advances in NMR and MRI of Materials

The development of science has led to the emergence of many new modern materials, which also require more advanced tools for their characterization and analysis. NMR and MRI are certainly among such tools, also due to their continuous development, which has made them more powerful, versatile, and se...

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Bibliographic Details
Main Author: Serša, Igor
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Identification
Accuracy
Two-phase Flow
Gadolinium (iii)-based Composites
Moisture Content (mc)
Rouse
Nmr
Diffusion
Wood
Ultrasonic
Drug Delivery System
Beech (fagus Sylvatica)
Magnetic Resonance
Waterlogged Wood
Biorelevant Dynamic Conditions
[pyr13][tf2n]
Silane
Pipe Flow
Natural Soil Material
Drug Release
Fractal Dimension
Heteronuclei
Partially Saturated
Asphaltenes
Maltenes
Zsm-5
Autocatalytic Reaction
Wood Conservation
Cement Hydration
Magnetic Resonance Imaging
Lamellar 2d Zeolites
Linearity
Titanium Dioxide Tio2
Low Field Nmr
Carthamin-3'potassium Salt
Pore Evolution
Polyoxometalates
Water Content
Siloxane
Chemical Reactivity
Solid-state Nmr Spectroscopy
Dipolar Echoes
Heterogeneous Catalysis Sugar Conversion
Accelerator
Pillared Zeolites
Polymerization Reaction
Non-deuterated Solvent
Qnmr
Plasticizer
Relaxation
22r And 22s Epimers
Validation
Ionic Liquids
Precision
Nmr Diffusometry
Nmr Relaxometry
Research And Information: General / Bicssc
Ctab
Swelling
Reptation
Diffusion-nmr
Diffusion Tensor Imaging (dti)
13-interval Pgste
Magnetic Resonance Imaging (mri)
Green Metallic Luster
[pyr16][tf2n]
Profile
Relaxivity
Renal Clearance
Pgse
2d Nmr
Drying Process
Accelerators
Nanodots
Archaeological Wood
Relaxometry
Quantification
Confined Liquid
L-curve Regularization
Mordenite
Budesonide
Cpmg
Limit Of The Quantitation
Impurity A
Lanthanides
Time-domain Nmr
Fermented Safflower Petal Tablet
Inverse Laplace Transform
Foam Flow
Gabapentin
3-tau Model
Conductivity Tensor Imaging (cti)
Vxc72 Carbon Black
Nuclear Magnetic Resonance Imaging
Paramagnetic Relaxation Enhancement
Biomolecules
Hyperpolarization
Low-field Nmr Spectroscopy
Solution-state Nmr
Relaxation Times
Porous Material
Repeatability
Flip Angle
Specificity
Wood Consolidation
Gradient Broadening
Hplc
Fast Field Cycling
Induction Period
Zeolites
Water Flow
Erbium
Calorimetry
Pvc
Dysprosium
Robustness
Mas
Electrical Conductivity
Velocity Mapping
Hydrogel
Fast Relaxation Times
Anisotropy
Hydrophilic Matrix Tablets
Chemistry / Bicssc
Epoxy Resin
Magnetic Resonance Imaging Contrast Agents
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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020 |a 9783036576206 
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100 1 |a Serša, Igor 
245 0 0 |a Advances in NMR and MRI of Materials  |h Elektronische Ressource 
260 |a Basel  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2023 
300 |a 1 electronic resource (388 p.) 
653 |a identification 
653 |a accuracy 
653 |a two-phase flow 
653 |a gadolinium (III)-based composites 
653 |a moisture content (MC) 
653 |a Rouse 
653 |a NMR 
653 |a diffusion 
653 |a wood 
653 |a ultrasonic 
653 |a drug delivery system 
653 |a beech (Fagus sylvatica) 
653 |a magnetic resonance 
653 |a waterlogged wood 
653 |a biorelevant dynamic conditions 
653 |a [Pyr13][Tf2N] 
653 |a silane 
653 |a pipe flow 
653 |a natural soil material 
653 |a drug release 
653 |a fractal dimension 
653 |a heteronuclei 
653 |a partially saturated 
653 |a asphaltenes 
653 |a maltenes 
653 |a ZSM-5 
653 |a autocatalytic reaction 
653 |a wood conservation 
653 |a cement hydration 
653 |a magnetic resonance imaging 
653 |a lamellar 2D zeolites 
653 |a linearity 
653 |a titanium dioxide TiO2 
653 |a low field NMR 
653 |a carthamin-3'potassium salt 
653 |a pore evolution 
653 |a polyoxometalates 
653 |a water content 
653 |a siloxane 
653 |a chemical reactivity 
653 |a solid-state NMR spectroscopy 
653 |a dipolar echoes 
653 |a heterogeneous catalysis sugar conversion 
653 |a accelerator 
653 |a pillared zeolites 
653 |a polymerization reaction 
653 |a non-deuterated solvent 
653 |a qNMR 
653 |a plasticizer 
653 |a relaxation 
653 |a 22R and 22S epimers 
653 |a validation 
653 |a Ionic liquids 
653 |a precision 
653 |a NMR diffusometry 
653 |a NMR relaxometry 
653 |a Research and information: general / bicssc 
653 |a CTAB 
653 |a swelling 
653 |a reptation 
653 |a diffusion-NMR 
653 |a diffusion tensor imaging (DTI) 
653 |a 13-interval PGSTE 
653 |a magnetic resonance imaging (MRI) 
653 |a green metallic luster 
653 |a [Pyr16][Tf2N] 
653 |a profile 
653 |a relaxivity 
653 |a renal clearance 
653 |a PGSE 
653 |a 2D NMR 
653 |a drying process 
653 |a accelerators 
653 |a nanodots 
653 |a archaeological wood 
653 |a relaxometry 
653 |a quantification 
653 |a confined liquid 
653 |a L-Curve regularization 
653 |a mordenite 
653 |a budesonide 
653 |a CPMG 
653 |a limit of the quantitation 
653 |a impurity A 
653 |a lanthanides 
653 |a time-domain NMR 
653 |a fermented safflower petal tablet 
653 |a Inverse Laplace Transform 
653 |a foam flow 
653 |a gabapentin 
653 |a 3-Tau model 
653 |a conductivity tensor imaging (CTI) 
653 |a VXC72 carbon black 
653 |a nuclear magnetic resonance imaging 
653 |a paramagnetic relaxation enhancement 
653 |a biomolecules 
653 |a hyperpolarization 
653 |a low-field NMR spectroscopy 
653 |a solution-state NMR 
653 |a relaxation times 
653 |a porous material 
653 |a repeatability 
653 |a flip angle 
653 |a specificity 
653 |a wood consolidation 
653 |a gradient broadening 
653 |a HPLC 
653 |a Fast Field Cycling 
653 |a induction period 
653 |a zeolites 
653 |a water flow 
653 |a erbium 
653 |a calorimetry 
653 |a PVC 
653 |a dysprosium 
653 |a robustness 
653 |a MAS 
653 |a electrical conductivity 
653 |a velocity mapping 
653 |a hydrogel 
653 |a fast relaxation times 
653 |a anisotropy 
653 |a hydrophilic matrix tablets 
653 |a Chemistry / bicssc 
653 |a epoxy resin 
653 |a magnetic resonance imaging contrast agents 
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856 4 2 |u https://directory.doabooks.org/handle/20.500.12854/100817  |z DOAB: description of the publication 
082 0 |a 000 
082 0 |a 576 
082 0 |a 540 
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520 |a The development of science has led to the emergence of many new modern materials, which also require more advanced tools for their characterization and analysis. NMR and MRI are certainly among such tools, also due to their continuous development, which has made them more powerful, versatile, and sensitive. With these advances, these two techniques have been able to address many open problems associated with the emergence of new materials.This reprint comprises a collection of advanced NMR and MRI techniques and methods, together with a demonstration of their application to the target materials for which they were designed and optimized. These are presented in 25 original, peer-reviewed articles for the Special Issue in the MDPI journal Molecules. The topics covered include MR methods in pharmaceutical research, NMR in cement research, MR methods in wood research, diffusion in materials, characterization of materials by NMR relaxometry, NMR spectroscopy of materials, and MRI of materials. 

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