Solid-State <sup>137</sup>Ba NMR Spectroscopy: An Experimental and Theoretical Investigation of <sup>137</sup>Ba Electric Field Gradient Tensors and Their Relation to Structure and Symmetry

Hamaed, Hiyam; Ye, Eric; Udachin, Konstantin A.; Schurko, Robert W.

doi:10.1021/jp102026m

Cited by 35 publications

(26 citation statements)

References 68 publications

(173 reference statements)

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“…We were unable to detect any 137 Ba signal on the CsPb 0.8 Ba 0.2 Br 3 composition over 12 h using an RF strength of 125 kHz, which should be sufficient to detect such a narrow resonance (Supplementary Fig. 6), suggesting that the barium species present in the composition have very large EFGs, consistent with asymmetric non-perovskite barium environments 34 . Taken together, the 133 Cs and 137 Ba NMR results are compelling evidence for no barium incorporation into the CsPbBr 3 perovskite lattice.…”

Section: Resultsmentioning

confidence: 89%

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

et al. 2019

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All-inorganic metal halide perovskites are showing promising development towards efficient long-term stable materials and solar cells. Element doping, especially on the lead site, has been proved to be a useful strategy to obtain the desired film quality and material phase for high efficient and stable inorganic perovskite solar cells. Here we demonstrate a function by adding barium in CsPbI2Br. We find that barium is not incorporated into the perovskite lattice but induces phase segregation, resulting in a change in the iodide/bromide ratio compared with the precursor stoichiometry and consequently a reduction in the band gap energy of the perovskite phase. The device with 20 mol% barium shows a high power conversion efficiency of 14.0% and a great suppression of non-radiative recombination within the inorganic perovskite, yielding a high open-circuit voltage of 1.33 V and an external quantum efficiency of electroluminescence of 10−4.

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Section: Resultsmentioning

confidence: 89%

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

et al. 2019

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“…Over 74% of the nuclides in the Periodic Table have spin quantum number I > 1/2, and for over 63% elements the only NMR-active isotopes are quadrupolar, meaning that there are no I = 1/2 counterparts available for study. However, quadrupolar nuclei, such as 2 H, 6/7 Li, 11 B, 14 N, 17 O, 23 Na, 25 Mg, 27 Al, 35 Cl, 39 K, 59 Co, 69/71 Ga and 93 Nb, are of importance across the fields of chemistry, physics, biology, materials science and geology, as they are present in inorganic oxides, functional materials and ceramics, glasses and clays, polymers, pharmaceuticals and biomaterials, energy materials and in the compounds that make up the inner layers of our own planet. 1,2,[14][15][16][17][18][19][20] The development of methods for studying these nuclei using NMR spectroscopy, and the ability to exploit the site-specific and atomic-scale structural information this provides is, therefore, crucial.…”

Section: Introductionmentioning

confidence: 99%

New Methods and Applications in Solid-State NMR Spectroscopy of Quadrupolar Nuclei

2014

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Solid-state nuclear magnetic resonance (NMR) spectroscopy has long been established as offering unique atomic-scale and element-specific insight into the structure, disorder, and dynamics of materials. NMR spectra of quadrupolar nuclei (I > (1)/2) are often perceived as being challenging to acquire and to interpret because of the presence of anisotropic broadening arising from the interaction of the electric field gradient and the nuclear electric quadrupole moment, which broadens the spectral lines, often over several megahertz. Despite the vast amount of information contained in the spectral line shapes, the problems with sensitivity and resolution have, until very recently, limited the application of NMR spectroscopy of quadrupolar nuclei in the solid state. In this Perspective, we provide a brief overview of the quadrupolar interaction, describe some of the basic experimental approaches used for acquiring high-resolution NMR spectra, and discuss the information that these spectra can provide. We then describe some interesting recent examples to showcase some of the more exciting and challenging new applications of NMR spectra of quadrupolar nuclei in the fields of energy materials, microporous materials, Earth sciences, and biomaterials. Finally, we consider the possible directions that this highly informative technique may take in the future.

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“…[4][5][6] These tensors are important SSNMR observables, and a number of recent studies have illustrated that magnetic shielding and EFG tensor calculations using GIPAW DFT can provide additional insights in the study of a variety of chemical systems. [7][8][9][10][11][12][13][14][15][16][17] There is an increasing interest in "NMR crystallography", which pertains to obtaining molecular-level and crystal structure information for solid materials using SSNMR data. 18 Although there have been a number of exciting recent advances in this area of research, 6,[19][20][21][22][23][24][25] one cannot currently convert SSNMR data into a unique solid-state structure in a completely generalized manner.…”

Section: Introductionmentioning

confidence: 99%

A multinuclear solid-state magnetic resonance and GIPAW DFT study of anhydrous calcium chloride and its hydrates

Widdifield

Bryce

2011

Can. J. Chem.

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The group 2 metal halides and corresponding metal halide hydrates serve as useful model systems for understanding the relationship between the electric field gradient (EFG) and chemical shift (CS) tensors at the halogen nuclei and the local molecular and electronic structure. Here, we present a 35/37 Cl and 43 Ca solid-state nuclear magnetic resonance (SSNMR) study of CaCl2. The 35 Cl nuclear quadrupole coupling constant, 8.82(8) MHz, and the isotropic chlorine CS, 105(8) ppm (with respect to dilute NaCl(aq)), are different from the values reported previously for this compound, as well as those reported for CaCl2·2H2O. Chlorine-35 SSNMR spectra are also presented for CaCl2·6H2O, and when taken in concert, the SSNMR observations for CaCl2, CaCl2·2H2O, and CaCl2·6H2O clearly demonstrate the sensitivity of the chlorine EFG and CS tensors to the local symmetry and to changes in the hydration state. For example, the value of diso decreases with increasing hydration. Gauge-including projector-augmented wave (GIPAW) density functional theory (DFT) calculations are used to substantiate the experimental SSNMR findings, to rule out the presence of other hydrates in our samples, to refine the hydrogen positions in CaCl2·2H2O, and to explore the isostructural relationship between CaCl2 and CaBr2. Finally, the 43 Ca CS tensor span is measured to be 31 (5) ppm for anhydrous CaCl2, which represents only the fifth CS tensor span measurement for calcium. Résumé : Les halogénures des métaux du groupe 2 et les hydrates d'halogénures métalliques sont des systèmes modèles qui permettent comprendre la relation entre le gradient du champ électrique (GCE) et les tenseurs du déplacement chimique (DC) au niveau du noyau d'halogène et la structure électronique et moléculaire locale. Dans ce travail, on présente les résul-tats d'une étude de résonance magnétique nucléaire à l'état solide (RMN-ES) du 35/37 Cl et 43 Ca du CaCl 2 . Les valeurs de la constante de couplage quadripolaire nucléaire du 35 Cl, 8,82(8) MHz, et le DC isotrope du chlore, 105(8) ppm [par rapport au NaCl(aq) dilué], sont différentes de celles rapportées pour ce composé ainsi que les valeurs rapportés pour le CaCl 2 ·2H 2 O. Les spectres RMN-ES du 35 Cl sont aussi presentés pour le CaCl 2 ·6H 2 O et, lorsqu'on les compare, les observations relatives aux spectres RMN-ES du CaCl 2 , du CaCl 2 ·2H 2 O et du CaCl 2 ·6H 2 O démontrent clairement la sensibilité du GCE du chlore et des tenseurs du DC sur la symétrie locale et aux changements dans l'état d'hydratation. Par exemple, les valeurs de d iso diminuent avec une augmentation de l'hydratation. On a fait appel à des calculs selon la théorie de la fonctionnelle de la densité en utilisant une onde améliorée par un opérateur de projection comportant une jauge (« GIPAW-DFT ») pour corroborer les observations faites par RMN-ES, pour éliminer la présence d'autres hydrates dans nos échantil-lons, pour affiner les positions des atomes d'hydrogène dans le CaCl 2 ·2H 2 O et pour explorer la relation isostructurale entre le CaCl 2 et...

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Solid-State ¹³⁷Ba NMR Spectroscopy: An Experimental and Theoretical Investigation of ¹³⁷Ba Electric Field Gradient Tensors and Their Relation to Structure and Symmetry

Cited by 35 publications

References 68 publications

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

New Methods and Applications in Solid-State NMR Spectroscopy of Quadrupolar Nuclei

A multinuclear solid-state magnetic resonance and GIPAW DFT study of anhydrous calcium chloride and its hydrates

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Solid-State 137Ba NMR Spectroscopy: An Experimental and Theoretical Investigation of 137Ba Electric Field Gradient Tensors and Their Relation to Structure and Symmetry

Cited by 35 publications

References 68 publications

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

New Methods and Applications in Solid-State NMR Spectroscopy of Quadrupolar Nuclei

A multinuclear solid-state magnetic resonance and GIPAW DFT study of anhydrous calcium chloride and its hydrates

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Solid-State ¹³⁷Ba NMR Spectroscopy: An Experimental and Theoretical Investigation of ¹³⁷Ba Electric Field Gradient Tensors and Their Relation to Structure and Symmetry