scholarly journals Bulk Hyperpolarization of Inorganic Materials

2021 ◽  
Vol 75 (4) ◽  
pp. 333-337
Author(s):  
Snædís Björgvinsdóttir ◽  
Lyndon Emsley
Keyword(s):  
Solid State ◽  
Solid State Nmr ◽  
Nuclear Polarization ◽  
Inorganic Compounds ◽  
Lithium Titanate ◽  
Inorganic Materials ◽  
Level Information ◽  
Recent Method ◽  
Nmr Sensitivity ◽  
Low Sensitivity

Solid-state NMR spectroscopy is a well-established method to obtain atomic-level information about the structure of inorganic materials, but its use is often limited by low sensitivity. We review how solvent generated dynamic nuclear polarization can be used to increase sensitivity in solid-state NMR of inorganic materials, with emphasis on our recent method for hyperpolarization of proton-free bulk. We use selected examples to show how overall gains in sensitivity can be observed in both the surface and bulk spectra of inorganic compounds such as lithium titanate. The hyperpolarization methods reviewed here can be used to improve NMR sensitivity for a range of inorganic materials.

Up to 100% Improvement in Dynamic Nuclear Polarization Solid-State NMR Sensitivity Enhancement of Polymers by Removing Oxygen

2015 ◽  
Vol 36 (15) ◽  
pp. 1416-1421 ◽  
Author(s):  
Dao Le ◽  
Fabio Ziarelli ◽  
Trang N. T. Phan ◽  
Giulia Mollica ◽  
Pierre Thureau ◽  
...  
Keyword(s):  
Solid State ◽  
Dynamic Nuclear Polarization ◽  
Solid State Nmr ◽  
Nuclear Polarization ◽  
Sensitivity Enhancement ◽  
Nmr Sensitivity

scholarly journals Pushing NMR sensitivity limits using dynamic nuclear polarization with closed-loop cryogenic helium sample spinning

2015 ◽  
Vol 6 (12) ◽  
pp. 6806-6812 ◽  
Author(s):  
E. Bouleau ◽  
P. Saint-Bonnet ◽  
F. Mentink-Vigier ◽  
H. Takahashi ◽  
J.-F. Jacquot ◽  
...  
Keyword(s):  
Solid State ◽  
Dynamic Nuclear Polarization ◽  
Solid State Nmr ◽  
Nuclear Polarization ◽  
Closed Loop ◽  
State Of The Art ◽  
Cryogenic Helium ◽  
Current State ◽  
Nmr Sensitivity

The cooler the better. We report a strategy to push the limits of solid-state NMR sensitivity far beyond its current state-of-the-art.

scholarly journals Dynamic Nuclear Polarization / solid-state NMR of membranes. Thermal effects and sample geometry

2019 ◽  
Vol 100 ◽  
pp. 70-76 ◽  
Author(s):  
Evgeniy Sergeevich Salnikov ◽  
Fabien Aussenac ◽  
Sebastian Abel ◽  
Armin Purea ◽  
Paul Tordo ◽  
...  
Keyword(s):  
Solid State ◽  
Dynamic Nuclear Polarization ◽  
Thermal Effects ◽  
Solid State Nmr ◽  
Nuclear Polarization ◽  
Sample Geometry

scholarly journals Solid-State NMR/Dynamic Nuclear Polarization of Polypeptides in Planar Supported Lipid Bilayers

2015 ◽  
Vol 119 (46) ◽  
pp. 14574-14583 ◽  
Author(s):  
Evgeniy S. Salnikov ◽  
Hiba Sarrouj ◽  
Christian Reiter ◽  
Christopher Aisenbrey ◽  
Armin Purea ◽  
...  
Keyword(s):  
Solid State ◽  
Lipid Bilayers ◽  
Dynamic Nuclear Polarization ◽  
Solid State Nmr ◽  
Nuclear Polarization ◽  
Supported Lipid Bilayers

scholarly journals Solid-state NMR enhanced by dynamic nuclear polarization as a novel tool for ribosome structural biology

2013 ◽  
Vol 56 (2) ◽  
pp. 85-93 ◽  
Author(s):  
Ioannis Gelis ◽  
Veronika Vitzthum ◽  
Neha Dhimole ◽  
Marc A. Caporini ◽  
Andreas Schedlbauer ◽  
...  
Keyword(s):  
Solid State ◽  
Structural Biology ◽  
Dynamic Nuclear Polarization ◽  
Solid State Nmr ◽  
Nuclear Polarization

Soft Chemical Routes to Heterostructured High-Tc Superconducting Materials

MRS Bulletin ◽  
2000 ◽  
Vol 25 (9) ◽  
pp. 32-39 ◽  
Author(s):  
Jin-Ho Choy ◽  
Soon-Jae Kwon ◽  
Seong-Ju Hwang ◽  
Eue-Soon Jang
Keyword(s):  
Solid State ◽  
High Performance ◽  
Inorganic Compounds ◽  
Rechargeable Batteries ◽  
Host Lattice ◽  
Inorganic Materials ◽  
Solid State Reactions ◽  
Metal Chalcogenides ◽  
Structural Anisotropy ◽  
Intercalation Reaction

Recently, inorganic/inorganic and organic/inorganic heterostructured materials have attracted considerable research interest, due to their unusual physicochemical properties, which cannot be achieved by conventional solid-state reactions. In order to develop new hybrid materials, various synthetic approaches, such as vacuum deposition, Langmuir–Blodgett films, selfassembly, and intercalation techniques, have been explored. Among them, the intercalation reaction technique—that is, the reversible insertion of guest species into the two-dimensional host lattice—is expected to be one of the most effective tools for preparing new layered heterostructures because this process can provide a soft chemical way of hybridizing inorganic/inorganic, organic/inorganic, or biological/inorganic compounds. In fact, the intercalation/deintercalation process allows us to design high-performance materials in a solution at ambient temperature and pressure, just as “soft solution processing” provides a simple and economical route for advanced inorganic materials by means of an environmentally benign, lowenergy method. These unique advantages of the intercalation technique have led to its wide application to diverse fields of the solid-state sciences, namely, secondary (rechargeable) batteries, electrochromic systems, oxidation–reduction catalysts, separating agents, sorbents, and so on. Through these extensive studies, many kinds of low-dimensional compounds have been developed as host materials for the intercalation reaction, including graphite, transition-metal chalcogenides, transitionmetal oxides, aluminosilicates, metal phosphates, metal chalcogenohalides, and so on. Recently, the area of intercalation chemistry has been extended to high-Tc superconducting copper oxides, resulting in remarkable structural anisotropy.

scholarly journals Improved Structural Elucidation of Synthetic Polymers by Dynamic Nuclear Polarization Solid-State NMR Spectroscopy

2013 ◽  
Vol 2 (8) ◽  
pp. 715-719 ◽  
Author(s):  
Olivier Ouari ◽  
Trang Phan ◽  
Fabio Ziarelli ◽  
Gilles Casano ◽  
Fabien Aussenac ◽  
...  
Keyword(s):  
Solid State ◽  
Nmr Spectroscopy ◽  
Dynamic Nuclear Polarization ◽  
Solid State Nmr ◽  
Nuclear Polarization ◽  
Synthetic Polymers ◽  
Structural Elucidation ◽  
Solid State Nmr Spectroscopy
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